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Home My WebLink About101 E Railroad Ave #A Technical Inspection Booth - BuildingTECHNICAL Permit 0qL(93 Address D I E Kai lrbo,.K Project description �2, S f+ Mah►tied ■n spe c,-hon gaol 6-kovnala,d, Se-ciuri+0 Date the permit was finaled 01 Number of technical pages 18 5c,hj C ck+() Raeli %o arr 'f Q1 wo +0 r 54 utv ra`;I Cal c oS R ss ble4 P vi (d n.3 Dural uIrriv0u CITY OF PORT ANGELES Conatrucdon i+l »nn The Issuance of this permit based upon these plans, specifi- cations and other data shall not prevent the building official from thereafter requiring the correction of errors in said plans, specifications and other data, or from preventing building operations being carried on thereunder when ,in violation of all codes and ordinances of this jurisdiction Approval Date UNITED STATES PORT OF ENTRY FERRY DOCKS PORT ANGELES, WA RADIATION PORTAL MONITOR By 4,e7 01 09PgsrAm FINAL STRUCTURAL CALCULATIONS Calculation Number 5777 -S1. Rev 2 December 30, 2008 For PNNL MEIER Enterprises, Inc 8697 Gage Boulevard Kennewick, WA 99336 (509) 735 -1589 (509) 783 -5075 fax www m ererinc.com Project No jurisdiction. .13 C 5777 RECEIVED FEB 0 2 2009 CITY OF PORT ANGELES BUILDING DIVISION FILE 4 -1S 0.-1k Looral-- koleb_s Y-1° Title Page Number Purpose 1 Scope 1 Assumptions 1 Computer Programs 1 Design Inputs 1 Codes and Standard 1 References 2 Conclusions 2 Calculations Project Design Values 3 Control Booth Wind Loads 4 RPM Wind 7 Seismic 8 Ballast I 1 Dock Piles FINAL STRUCTURAL CALCULATIONS FOR PORT ANGELES, WA TABLE OF CONTENTS Decking 12 Stringer 28 Girder 46 60 FINAL STRUCTURAL CALCULATIONS FOR PORT ANGELES, WA Purpose Analyze the existing ferry dock for new loads from the radiation portal monitors. Seismic and wind forces will be considered. Scope This calculation determines if the existing members are sufficient to resist the new RPM loads for the governing lateral case Assumptions For our analysis, we used the following assumption. Wood grade Douglas Fir Select Structural Deduction for wel'use 0% Deduction for treatment 15% Vehicle Type 16,000 lbf axle (see page 13) Wind Speed 100 mph (3 -sec gust) Exposure Category D Importance Factor 1 0 Computer Programs This design used the following programs on a microcomputer for the calculations l ENERCALC Structural Library, Version 5 8 by ENERCALC Engineering Software is an all around general structural program with the capabilities of designing any structural member (beams, columns, foundations, retaining walls) using Timber, Steel, Concrete, or Masonry The software also has the capabilities to do analysis for beams or columns. The options considered as part of this calculation are the Concrete Footings, beam and column sizing, `built -up properties, and Seismic applied loading. 2. MATHCAD Version 14 by Mathsoft Engineering is a general math tablet program Design Input Loads are specific to the site. Dimensions provided by PNNL. Codes and Standards The following codes were used in the design of the frame. 1 ASCE 7 -05 References The following documents apply to these calculations. The edition of the document shall be the latest available edition. 1 Software, Enercalc, Structural Engineering Library Version 5 8, Enercalc Engineering Software. 2003 2 Software, MathCAD 14, Mathsoft Engineering and Education, Inc., 2007 3 Microsoft Word 2000, Microsoft Corporation, 2000 Conclusion Control Booth The existing structure is adequate to resist the new Loads from the booth Ballast The POV RPM. s do not require an additional ballast to resist the lateral forces. The Cargo RPM's require a steel ballast with the dimension 2-ft x 6 -ft x 2 in 4x8 Decking The decking is adequate to resist the new from the RPM's. 6x13 Stringer The stringer is adequate to resist the new loads. 12x13 Girder The girder is adequate to resist the new loads. Piles The pile is at maximum design capacity with the addition of the RPM loads. Although the new stress exceeds the 1 0-ton limit as required by the client, it is sufficiently conservative that the actual new total design load is expected to be at or just below the l0 -ton limit. 1') New Load t#1 -Ion Absolute Maximum Load 15 -ton 2 (Design OK) MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735 1589 fax: 509.783.5075 www.meierinc.com Proposal No. Customer PNN1. Project Description United States Port of l:.nt:n Standard Design Radiation Portal Monitor Design Criteria Provide structural analysis for the ;anchorage of a pre fabncatcd radiation portal monitor Design Values Wind Vnnph 100 xposurc 1)' (exposure category based on terrain type) Seismic S 1 118 S1 0 467 Vertical Loads 2700•Ibf \F ence 500 lbf Unit Weights Iconc 145 pcf Pro }ect: No. 08 -5777 Date 12/30/2008 By Hsu Ck. 13y (3 -sec gust: wind speed) "ystl 490pcf (density of steel) RPM Dimensions rpm 7 ft -t- 5 75in (height of structure) 3ft 2m (length of RPM) 1 rpm r.pl)n 1 ft 9.25m (width of RPM) Ballast Dimensions ]ballast Gft 'ballast 2f1. Asphalt Concrete 1 .5tn t icp (spectral response acceleration at short period) (spectral response acceleration at 1 -sec period) (dcnsntt of Concrete) (length of ballast block) (wu}rh of b /llast block) (thickness of asphalt concrete) Job Description Port Angeles, \X A (Rev 2) (weight of individual PVT type radiation 13or111 n)oI1tor) represents maximum weight that includes battery and control box (weigth of battery and ccintrol box for P\!'1' type ra portal monitor) Page of 'ywd 35pcf density of wood) 'yaep 150pcf (density of asphalt concrete) RPM Base Plate Dimensions abase 6 ft 2 in (length of RPM base plate) "base 5 ft (width of RPM base plate) abase 1 in (thickness of RPM base plate) tgrout 1 m (thickness of leveling grout) MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509 735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Customer PNNL Overturning Anaivsts Determine the foundation for Booths with a wind speed of 100 mph. Lightweight structure, wind governs. Gravity Loads. 1.)unensions. Mind Load. Determine the -Applied \Vend Load for the location. q, 0.00256K4 Kit: KcFVinph, I psf \'t ndwa rd \X'a1]: l.,ccvard \wall: Side Walls: GC:pi.a 0 18 Windward: 1 1 a I lb ix (G1 C 1 GC pi.b) "r 100 K. =103 Kc] 0.85 1 1.0 1.0 0 85 Leeward: 1 2a q. cp.2 GCpt.a) x.A 1'2b qi Cp.'? GC'pi.b) \r 1a'= 1 -1 19.81 psf Pb 1 1b r2 b 19.81 psf 1 wai f= max(f a P 19.81 psf Page of 6 Project No. 08 -5777 !)ate 12/30/2008 By Hsu Ck. By mph (\\'ind Speed, County Official) Cp.1 0.61 Roof Load: Ch,4 —1.07 c —0 43 C. p.4 b —0.53 Cp.3 —0 45 GC pi.b "0 18 job Description Port Angeles. \VA\ (Rev 2) 1)]. booth.rool` 8 ps D1 booth floor 7 0 ps DL booth.walls 5.5•psf Height. h booth 9 44-ft Length: booth 18• ft Width: dbooth 8.0• ft (Velocity Pressure 1 xposure Coefficient \SCI: 71)5, pg 79 !'able 6 -3, 1. xposure D) (Mind Directionality Factor, ASCh 7 -05, pg 80, fable 6 -4) (1'opograplttc factor, Assumed flat terrain) (lmportancc Factor ASCi 7 -05, pg. 77 1ablc 6 -1 Cat. 11) (Gust Lffect Facto: ASCI: 7 -05, pg 26, Sect 6.5.8.1) 22.41 psf (Velocity Pressure ASCI. 7 -05, pg. 27 1.;q. 6 -15) C'C p \r 1. 1a 7 S9.psf "'A (Wind Porce, ASCL 7 -02, pg. 32, Lq. 6 -17)) I 1b 15.66.psf *A p2a 12.231psf *A Mind force, ASC1 7 -02, pg. 32, Eq. 6 -17) 1 2b —4 16-psf *Ar MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone 509 735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Customer PNNI, Roof 1 c. C: •1• 3a 1 r. G 7 ]i 4 a G 'pt.a 1 -3b c1, (G 1 C p.4 a GC pt.b) T 1 r 1 3c (6 1 Cp.4.1) C) C: pt.a) A l 1. 3d c (61 Cp 4 b C C pt.b) 1:3 a 3a 1.3c 10.29•psf 1 31 1 31) 1i3d 1029•psf 1`")()f max(11 3 a` 1 31)1) 10.29•psf tnd loads applied: Determine the total wind load applied to the structure with the wind load of 130 mph. A. 11 h 1 00111 1 1 )001 :1 .1 12 booth cl booth 1 f.1 169 92 ft 1 'wtnd.1 (rib 1 '2a)• A f 1 Pwind.2 1 3a 1 f.2 'booth h \vi d c clod Booth Dead Load (Prom Port -a -King PK# -GS -071: 98041'1 Rev 7 Calcs). AN 1 169 92 ft \f.2 144 ft •1 144 ft 1'wnnd.i 4 74 k 1' w,nc l 2 —3.52 k hwind 4 72 ft d wi ;d 4.00 ft 131, hoot:h (D1'booth.roof DI- booth. iloor)' d booth 131.. booth.walls 2 h booth (booth cl booth) Date 12/30/2008 By ,Job Description Port Ang :Ivs, WA (Rcv 2) 1 —24 419. psf *Al (\X'ind Porcc, AS(:1: 7 -02, pg 32,1` j. 6 -17) 1 3 1 16.35•psf *A 1 —14 131 psf *A 1 3d 6.063•psf *Ar Determine the total wind load applied to the structure with the wind load of 130 mph. 4.86•k 1 -lsu Ck. 13y Page of ME1ER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 www.meierinc.com phone: 509 735 1589 fax: 509.783.5075 Z Page of Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. By 1+` Customer PNN1.. Job Description Port Angeles. WA (Rev 2) \Vins loads applied. Determine the Tension Toads of the anchors. 'fake the moment about C.' (Ditooth.roof 1)L booth.floor) l booth 1`'tbooth h1booth.rf -t 1 t booth.wall dbooth Check dock members. use half of the booth s width t0 transfer the compression load. 1 anchor )dock 1 (2)( 1dock 19.51 psf 1 33 25 948 psf \pply increase dock allowable for short term load 2 2 d booth M booth. wall DJ- booth walls booth h booth dbooth h booth 2 h booth M 1 wall' l booth h booth 1 1 1 roof l booth' d booth) Max] 1 5•i\1 ht anchor 1 l booth 1: ach anchor will see 1/3 of the load for tension. l anchor l l� wind.1 1 anchor 3 <t boot 1 anchor 0.6� k v anchor. 6 h 1 'booth.rf 8.64 k ft M boo rh.\vall 9 14•k ft h1boorh 17 78 k fe M 21.82 k ft 1\1req 32.72 k ft Kl anchor. 14 95•k ft V anchor 039.k Design OK. Minor uplift load. Use 1 /2 -m diameter bolt. Dock members ok The overturning load ,noes not exceed snow load for the area. MEIER Enterprises Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Page of P Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. By f"il. v Customer PNNI., lob Description Port Angeles, WA (Rev 2) LATERAL ANALYSIS Main Wind Force Resisting System ASO 7 -05 Analytical Method 2 Wind Pressures. \T mp l 100 I xposurc 'D' K(z) 2.01 1 0 (Topographic factor Section 6.5.7.2, pg 26) Kd 0.85 (Wind directionality factor 'fable 6 -4 pg. 80 Maul Wind I-orcc Resisting System) lw 1 0 (Importance factor for wind loads, Table 6 -1 pg. 77 Category 11) (0.00256) K. K it l 'cl \hmph2 lw psf (Wine Stagnation Pressure, 3- second gust) cJ� 19 9•psf (.7 0 85 ((Just Effect hactor \SCI 7 -05 pg. 26, Section 6 5.8.1) Structure wind force adjustment coefficient for solid freestanding walls and signs l rpn) 13 /s t pt)) Jl 13 /s r13177 0.21 (aspect ratio of height to length of structure) rpm conservative (clearance rai of height to open area below sign) s /h 1 (1 65) 1.55 Citch I J tx z h rpm U.2\ l3 /stab 5) Cf rJ)J)n linterp(13 /st:ab CCftab 13 /s 1.646 (force coefficient, pg 73 I 6 -20) Design wind force J)ov h rpm l rpm 23.684 ft h rpm) l rpm 47.368 ft l v pov 9 ("1x 470 421bf l'wcgo (l 941 lbf (Basic wind speed, figure 6 -1 pg 32, 3- second Gust) (exposure category pg. 25 Section 6.5.6.3) 7 0 if 1: xposurc '13 9 5 if 1 xposurc 'C' 11 5 if 1= xposurc 'D' \'cloc tv Pressure Coefficient fable 6 -2, pg. 79) li K(z) 0 91 z 1200.ft if 1: xposurc 13' 900 ft: if I xposurc. 'C. 700 ft if 1: xposurc D' (tabulated design values from Figure 6 -20 pg 73) (horizontal projected area of PO RPM) (horizontal projected area of cargo RPM) (design wind force on RPM) (total design wind force) a= 115 ./A 700 ft MEIER Enterprises Inc. pit 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 L.- www.melerinc.com Page of Proposal No. Project No 08 -5777 Date 12/30/2008 133 Hsu Ck. By Customer PNNI, Job Description Pori Angeles, WA (Rev 2) Seismic Design ‘SCE 7 -05, Seismic Demands on Nonstructural Components Mapped Site Coefficients and Site Classification S,_ 1 118 S 0467 Site '13' Adjusted Max Considered Earthquake (MCE) Spectral Response Accel Parameters fable 11.4 -1. Site Coefficient, Fa S short 0.50 0 75 1 00 1 75 1 able 11 A -2: Site Coefficient, I' /0 10\ 0.20 S1 sec 0 30 0 40 050) 1 lintcrp(Sshort f a 1 05 1 1 53 (l'he mapped 1\4C1 spectral response acceleration at short period, pg. 115, Section 11 4 1 Figure 22 1 through Figure 22 14) (I'he mapped MCI: spectral response acceleration at 1 -sec period, pg. 115 Section 11 4 1 Figure 22 1 through Figure 22 1 4) (Site classification based on soil properties, pg 115, Section 11 4.2) 0.8 (1,0\ 0.8 1.0 'short 0 8 13 short 1 0 08 10 0.8 1 0) 0.s\ 08 '''sec 0.8 0.8 0.8 •'short. if Site A ';short if Site '13' C,short if Site 'C' Dshort. if Site '13' 131 sec 1 .0\ ,S I 0 l 0 1.0 1 0) I 'short. otherwise l (Site class coefficient pg. 115 Table 11 4 -1) (Site class coefficient pg. 115 Table 11 2) 'short (1 7\ 1.6 C 'l sec 1.5 14 13, 1 lintcrp(S1sec, 1) 1 sec 1.6 S ms fa Ss (MCI spectral reponse acceleration for short period adjusted for site class effects) Sins 1 177 (Section 11 4 3 pg 115, Lquation 11 4 -1) S m'I 1 S (MCI spectral reponse acceleration for 1-sec period adjusted for site class effects) 8m1 0 716 (Section 11 4 3 pg 115, Lquation 11 4 -2) I" short: "2.4` 2.0 1.8 1 .1 sec I.6 1.5) Aisec if Site A 13 lscc if Site '13' C C1 sec if Site 'C' 171sec if Site 'D' I 1 sec otherwise (2.5" 17 1 .2 09 0 9 (3.5\ 3.2 2.8 2.4 \2.4) s 1 M- MEIER Enterprises Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Page of tom' Proposal No Proicct No. 08 -5777 Date 12/30/2008 By Hsu Ck 13y Customer. PNNI., Job Description Port: Angeles. \X A (Rev 2) Design Spectral Acceleration Parameters (Design earthquake spectral response acceleration parameter at shots period) "'cis I Sms Sds 0 735 (Section 11 4 pg. 115, Equation 11 4 -3) Sd1 2 3 Sml (Design earthquake spectral response acceleration parameter at 1 -sec periods) (Section 11 4 4, pg 115, 1:.quat[on 11 4 -4) S d1 0 477 Occupancy Category and Importance Factor Category I (Occupancy category of buildings, '1 able 1 1 below) I able 1 I. Occu})anc] Categories fable 11.5 -1. Importance J actors 1 Buildings and other structures that represent low hazard to human life in the event of failure 11 All buildings and other structures except those listed to Occupancy atcgones 1 111 and 1\ 1]1 Buildings and other structures that represent: a substantial hazard to human life in the event of ftiltu:c 1V Buildings and other structures designated as essential facilities Ic..= 1.00 if Category 1' 1.00 if Category 11 1.25 if Category 'III 1.50 if Category 'IV' lc 100 (Seismic design importance factor) Seismic Design Category (•atcgorvd. if Category 'IV' Catcgorv A if S 0 167 'C if (Sd 0 167)-(Sd 0 33) 'D' if (Sd 0 33) (Sd s 0 50) if Sd 0 50 'E if S 0 75 '0' otherwise if Category IV' A if S 0 167 .B if (Sds 0.167)•(Sd 0.33) C if (Sd 0 33) (Seas 0.50) if Sds 0 50 'E if S 0 75 'D' otherwise Catcgoryd 'D' Cat:cgoryd D' Design Category max(Catcgoryds Catcgorycll) (Assigned category based on the more severe of either the short period vs. 1 -sec period response, pg 116, Section 11.6) f Dcstgn Category '0' if category A if S cil 0.067 "C' if (Sd. 0.067).(Sd 0 133) 'D' if (Sd1 z 0 133)•(S 11 0.20) if Sd1 0.20 'F' if S 0 75 D' otherwise if Category IV' A if Sd 1 0.067 '13 if (Sell 0.067)•(Shc 01 33) 'C' if it Sd 0.20 E if Si >075 'D' otherwise 0 133)•(Sd 0.20) MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Page of ,,,--4--- Proposal No. Project No. 08 -5777 Date 12/30/2008 13y Hsu Ck. By Customer PNN1. Job Description Port Angeles, \\'A (Rev -2) Design variables alp 1.0 (component amplification factor, pg 146, "1 able 13 5 -1 Rigid Components, Limited mited Deformity) R 2.5 (component response modtfcation factor, pg 146, Table 13.5 -1 Rigid Components, l..unttcd Deformity) 1 le 1 (importance factor pg. 143 Section 13 1 3 z rJJfll 0 fl: Seismic design acceleration (height in structure of point of attachment of component with respect to the base) 0 4 ap s cls rpm s tict I 2 0 126 (actual seismic design force,.pg. 144 Expiation 13.3 -1) R h rpm I Cs max I.6•S I 1.255 (maximm sctsmmc design force, pg 144 Expiation 13.3 -2) C'smtn 0 3 Sds I 0.235 (minimum seismic design force, pg 144 l.,quatton 13.3 -3) Cs mlax(Cs nnn(Cs C s max)) 0.235 Compare seismic to wind wppov wi 2.7 k p cgo 2\\• 5 4•k LP" (Cs)( \C /p1 636 lbf I.. (Cs)(\x p clyct 1271 lbf J•.w 470 lbf f 940.839Ibf (weight of RSP unit and support shroud) the weight of the ballast and steel base are neglected because their centers of mass are effectively at grade. (lateral seismic force of PC)V RPM) (0 7) E po‘ 444 917 lbf (lateral seismic force of cargo RPM) (0.7)1.. 889.835 lbf (PM RPM wind load) (cargo RPM winch load) lateral 'wind' if 0.70 L. pov) 'seismic' if (0 70 1s'pov) 1 'w hM l atera l wind if (0 70 1: ego 1,wcgo 'seismic' tf (0 70.1, 1 w cgct 'wind' (design seismic accicrations) Cs 'min M-- MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone. 509.735.1589 fax: 509 783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. 13�• Customer PNN], job Description Port Anpeles. \X A (Rev 2) Determine Required Size of Ballast \\/Ind governs. Me lateral forces are as follows. POV RPM Required resisting moment, tin rtll rcq.pov (1 5)ot 2.771 k ft Required weight of ballast `bar.rpm 2u1 'bar ballast 48m ballast.rcq.pov Required weight of ballast \X ballast.t:eq.cgo t ballasr.cgo ceil t ballast.rcq.cgo to =tin rmteti.pov pprn•)(•bar.rp111) `bar ballast 111 'bar.ballast IS\V 0 47 k Overturning moment, otm x bar ballast ocn) po I z h t:pm 1 0s 1.847 k ft ow— x bar rpm 0 018.k l'w 0.941 k NO ballast required required weight is negligible Cargo RPM Overturning moment, otm Required resisting moment, rm ot:m (l 1 05) 7 389•k ft rinrcc1.cgo (1 5)orm 11.083 k ft base 1 tk,asc 'base �c'basc)�stl 1.259 I: (weight of steel RPM base plate) bascl rttl ral.cgo (2) (1\ })vt: eicc)(xbar.rpai) \X bau 1 JJ 0.884•k Required thickness of ballast \x, ba}lasr.rc<l.cgo C I.804-in t -A5t batlast.rcq.cl;o (ystl)(Iballast)wballast 41* \X/ ballast.cgo 7 st• 1)( t ballast .cgo)( 0 98 k Page of t MEIER Enterprises, Inc. iv t 8697 Gage Boulevard Kennewick, WA 99336 phone: 509 735 1589 fax: 509 783.5075 Z www.meierinc.com Page of r Proposal No. Project No. 08 -5777 Date 92/3 {)/2008 liy Hsu Ck. By Customer. PNN1, Jon) Description Port Angeles, \Vr\ (Rev 2) VERTICAL ANALYSIS. 4x8 Decking, brn1 Check decking to withstand truck load The material used for the decking is comprised of 4x8 lumber oriented along its weak axis, laid with one member directly adjacent to the next. "'Dail 7.251n (width of member) dbm1 3.5m (depth of member) ]bnnl 24in (length of member) \pp:oxlmatclt 1 1/2 inches of asphalt concrete covers the decking dlacp 18.75•psf(unifornn weight of asphalt concrete per square foot of area) where t act) 1 5•m (thickness of asphalt: concrete) �acp 150 pcf (unit weight of asphalt concrete per cubic loot) There is a sun posting a inlaximum per axle capacity of 16,000 -1bf. in tire 4 (number of tires per axle) Paste 16k (maximum allowable axle load) axle )'tire 4 k (maximum allowable load per tire) la the The maximum allowable tire pressure will be based on the recommendation of Section 3 30 on page. 38 of the \S11'1'0 design manual. 0 01 tiro 40. WI (design tire contact area) ui.c. psi ))tare tire In order to approximate tire width, b, Section 3 30 from page 30 from •\ASJ -1T(') will be used as reference The length in the direction of traffic to the width of the tie can be assumed to follow a 1.2.5 respectively tire b urs trite l nrc rae. 100 psi (design lire pressure) 4 in (calculated width of are contact) 10-in (calculated length of tire contact) MEIER Enterprises Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.melerinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. 13y Customer PNN7. job Description Port i\nl;eles. WA (Rev 2) Modified design truck based on 16k posted axle lumt. 1 V 1 Y1 0 x 3521 ruck. used for pile analysis. type 3 -3 Truck. 3S2 1 nick Governs. 1 1 1 r1 /r. t 9 T T l 1 1 1 Page 1 of _C- fr 1 M---' MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 Page J y of �6:7-- www.meierinc.com age Proposal No. Project No. 08 -5777 Date 12/30/2008 I3y Hsu Ck. By Customer. PNNI, job Description Port Angeles, \Vi\ (Rev 2) Case A\ Direction of traffic in the 1: \X' orientation 1'hc tributary loads experienced by a single plank of decking will be entered Into the structural design software I'.ncrcale. Iwo conditions will be examined. 1 he first condition will determine the existing stresses in the member, considering only the weight of the asphalt concrete and the truck as the dead and live loads per linear foot, respectivcl\ Since the Width of the tire is less than that of the member, the entire load from a single Lire is assumed to act on one member tribbnl1 'bin1 7.25 in (tributary width of load to member) The dead load as determined below will be applied to the enure length of the member. wl cll.bml ((ll� 11 328•plf (uniform dead load per linear foot ofinembei) 1'he live Toad as determined below will be applied at mid -span, with a length equal to the length of the tire wl ll.bnnl (I 4800•plf (uniform live load per linear foot of member) I tire I0•lu (length of tiro which is equal to length of uniform live load) 1. he total load duration factors applied will be based on chapter: 4 of the 2005 edition of the Supplement t0 the National Design Specification (NDS) l'hc) are as follows. C (repetitive member factor, entered directly into Licit it /i if applicable) 1 otal load duration factor (wet service factor for bending stress) (flat use factor for bending stress) (incising /pressure treating factor for bending stress) (short -tern) load increase) Cl)(C1.f C, fu c 1 Cst) C. tit l�.bnl l C 0 t 05 0.85 1.0) 0 892 i I50 The member is overstressed in the existing condition. Stress ratio 1.448 1 Case B: Direction of traffic in the N -S orientation s ee r <_t c 1 ct r \ssume the truck tires are perpendicular to the decking. distance between tires is 1 c/c w (Ptire)wbinl 8700•p1f (uniform Iive load per linear foot: of member) bun, 4 in (width of one tire) The member is overstressed in this condition as well. Stress ratio 0,913 1 MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 C phone. 509 735 1589 fax: 509.783.5075 ]ga www.meierinc.com Proposal No. Pro]ect No. 08 -5777 Date 12/3012008 By I Isu Ck. 13)' Customer. PNN1, Job Descripuon Port Angeles. \V1\ (Rev 2) Case A. Traffic parallel to decking 1 b.tirc 0 74 b tire N fire footprint =1x8 decking Stringer below Case B. Traffic perpendicular to decking N Tire footprint 4x8 decking stringer below .—cy. sp Load diagran span Load diagram span b tire Litre eel sp ttrc live load dead load (decking) span 2 tire live load tire live load dead load (decking) Full Length Uniform Loads Trapezoidal Loads #1 DL Left DL Right Summary Section Name 4x8 Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Center DL Left Cantilever DL Right Cantilever DL MEIER Enterprises, Inc Span= 2.00ft, Beam Width 7.250in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow 1,291 43 psi 892.00 psi fb Fb Deflections Center Span. Deflection .Location .Length /Deft Camber using 1.5 Center Left Right Stress Calcs Bending Analysis Ck 35.405 Cf 1.000 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Dead Load -0.000 in 1.000 ft 168,073.1 D.L. Defl 0.000 in 0.000 in 0.000 in Le Rb 7.250 in 3.500 in Sawn 0.892 Pin -Pin 35.000 pct 1.59 k -ft 0.00 k -ft 11.30 /ft /ft /ft /ft LL Left 4,800.00 /ft� /ft LL Right 4,800.00 /ft Depth 3.5in, Ends are Pin -Pin 1448 1 1 6 k -ft 1 1 k -ft at 1.000 ft at 2.000 ft 0.00 k -ft 0.00 k -ft 1 10 fv 119.06 psi Fv 160.56 psi 0.000 ft 0.000 Max Moment 1.59 k -ft 0.00 k -ft 0.00 k -ft Left Support 3.02 k 18.816 in2 160.56 psi 2.02 k 2.02 k Center Span Left Cantilever Right Cantilever Douglas Fir Larch, No.1 Fb Base Allow Fv Allow Fc Allow E Total Load -0.024 in 1.000 ft 988.30 LL LL LL Reactions. Left DL Right DL Sxx 14.802 in3 CI 2019.067 Sxx Req'd 21 43 in3 0.00 in3 0.00 in3 Right Support 3.02 k 18.816 in2 160.56 psi Title Port Angeles, WA Hsu Date: Descripti on Radiation Portal Monitor Scope Dock framing analsyis (Rev,Bf 8697 Gage Boulevard Konl)ewick. WA 99336 phon; 509 735 589 fax 509 /8`3 50/5 ,A..11 .11 IC;'i elil l(:.i:U111 Rev 580004 User KW- 0600591 Vet 5.0.0.15-Jun-2007 General a Timber ce (Rev eo T laton t %,c.dq:•...- ,x,ci .,n_ v?.^' aTd.`•• r•: .yx- x�,..,..........v 5 x.,vr.. '�'t »�a ener Beam 777 structural ca al Description 4x8 deck (existing Case A) truck load (E W traffic parallel to decking) General Information Co 1997/2001 NDS, IBC, A 50 Base are user defined .r.- ,....t Code Ref: 1997/20 2000/2003 I 2003 NFPA 00 se allowables a ;"7.-...,,-, c� ar..." ,.,a ..w:T "TFT*"',"`, •�r T "SE`=:C3'- ^��1:.�: tc h -Ye.. .,s..�. a r .,o�P.., Bearing Length Req'd Bearing Length Req'd 2.00 ft ft ft 1,000.0 psi 180.0 psi 625.0 psi 1,700.0 ksi /ft /ft #!ft .Lu .Lu .Lu 3.0 k 41 k Left 2.02 k Right 2.02 k Camber Left 0.000 in Center 0.000in Right 0.000in Maximum Shear 1 5 Allowable Shear Left Cantilever Deflection .Length/Defl Right Cantilever Deflection .Length/Deft Start Loc 0.583 ft M ti End Loc 1 417 ft Overstressed in Bending 0.02 k Max 2.02 k 0.02 k Max 2.02 k Dead Load 0.000 in 0.0 Area 25.375 1n2 Allowable fb 892.00 psi 892.00 psi 892.00 psi 0.446 in 0.446 in 0.000 in 0.0 0.00 ft 0.00 ft 0.00 ft Job 08 -5777 Total Load 0.000 in 0.0 0.000 in 0.0 Title Port Angeles, WA Dsgnr Hsu Date: Description Radiation Portal Monitor MEIER Enterprises, Inc 8697 Cage 33oulev:llci t(Qriii wick WA 99336 r- phon =c 509 735 589 fax 509 783.5075 Scope Dock framing analsyis (Rev,B) Job 08 -5777 www.M0iell; C cvnl Rev. 580004 User. KW -0600591 Ver 5.8.0. 15-Jun-2007 General Timber Beam (c )1983 -2007 ENERCALC Engineers Software v al cv a ti 5777 slr�cluraF caics (Roy 2}.eay. atlahon s... m ..�.....:...rt......:..:.. --T= y--- cam...... �s Description 4x8 deck (existing, Case A) truck load (E -W traffic parallel to decking) Query Values M, V D (at Specified Locations Moment Shear Deflection C«3 Center Span Location 0.00 ft 0.00 k -ft 2.02 k 0.0000 in Right Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in Q Left Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in 860 Gaga Bouk.ward Kenneerick V\4\ 99.536 phone 509 3...) 589 fax 509 783.5015 Olt IC (.0I tt Rev 580004 User KW-0600591 Ver 5.8.0. 15-Jun-2007 (01983-2007 ENERCALC Engineering Software Description 4x8 deck (existing, Case [3) truck load (N-S traffic perpendicular to decking) General Information Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Section Name 4x8 Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Deflections Center Span. Deflection .Location .Length/Defl Camber using 1.5 (di Center Left Right MEIER Enterprises, Inc 7.250 in 3.500 in Sawn 0.892 Pin-Pin 35.000 pcf General Timber Beam Trapezoidal Loads #1 DL Left #/ft DL Right #/ft #2 DL Left #/ft DL Right Mit Summary Span= 2.00ft, Beam Width 7.250in x Depth 3.5in, Ends are Pin-Pin 1 46 k-ft 0.00 k-ft 0.00 k-ft Dead Load -0.000 in 1.000 ft 187,846.4 D.L. Deft 0.000 in 0.000 in 0.000 in LL Left LL Right LL Left LL Right Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E 1.074 1 1.5 k-ft 1 7 k-ft at 1.000 ft at 2.000 ft 0.00 k-ft Max. M allow fb 1 184.94 psi fv 172.51 psi Left DL Fb 1,338.00 psi Fv 160.56 psi Right DL 1.65 Reactions. Total Load Left Cantilever -0.023 in 1.000 ft 1,031.38 Title Port Angeles, WA Dsgnr• Hsu Date: Description Radiation Portal Monitor a Scope Dock framing analsyis (Rev Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined 2.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1.900.0 ksi 'Ef7 8,700.00 It/ft 8,700.00 #/ft 8,700.00 #/ft 8,700.00 #/ft Deflection .Length/Defl Right Cantilever Deflection .Length/Defl .Lu .Lu .Lu Maximum $hear 1.5 Allowable Shear Left Right Camber Left Center Right l'$ !--7.-: 7 F A 11.30 #/ft LL #/ft #/ft LL #/ft #/ft LL #/ft Start Loc End Loc Start Loc End Loc 0.02 k Max 0.02 k Max 5777 structural talcs (Rev 2).ecwCalculation 1 0.333 ft 0.667 ft 1.333 ft 1.667 ft Overstressed in Shear Dead Load 0.000 in 0.0 0.00 ft 0.00 ft 0.00 ft 4 4 k 41 k Job 08-5777 2.92 k 2.92 k 0.000 in 0.000 in 0.000 in 2.92 k 2.92 k 0.000 in 0.000 in 0.0 0.0 ly0 Total Load 0.000 in 0.0 VA'. 11181(..01 0 tuft) ROY 580004 User Kw- 0600591 Ver 5.8.0. 15- Jun -2007 (c)1883.2007 ENERCALC Engineering Software Description 4x8 deck (existing, Case B) truck load (N -S traffic perpendicular to decking) Stress Calcs Bending Analysis Ck 30.561 Cf 1.000 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values MEIER Enterprises, Inc Le Rb M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 0.000 ft 0.000 Max Moment 1 46 k -ft 0.00 k -ft 0.00 k -ft Left Support 4.38 k 27.263 in2 160.56 psi 2.92 k 2.92 k 0.00 ft 0.00 ft 0.00 It General Timber Beam Sxx 14.802 in3 CI 2923.266 Sxx Rea'd 13.11 in3 0.00 in3 0.00 in3 Right Support 4.38 k 27.263 in2 160.56 psi 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angeles W Dsgnr• Hsu 7 Date: Description Radiation Portal Monitor 869i Gag(, Boulevard Kennewick. WA 99336 phone 509 /35 589 fax 509 783.5075 Scope Dock framing anaisyis (Revp') Bearing Length Req'd Bearing Length Req'd Area 25.375 in2 Allowable fb 1,338.00 psi 1,338.00 psi 1,338.00 psi 0.645 in 0.645 in Moment Shear Deflection 2.92 k 0.00 k 0.00 k Job 08 -5777 0.0000 in 0.0000 in 0.0000 in 5777 structural talcs (Rev 2).ecw:Celwlatwn i MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509 735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. 13v Customer PNNI, Job Description Port: Angeles, WA (Rev 2) Check decking to withstand RPM load Cargo is worst cast. Convert RPM to uniform load: \\'ballast.cgo 0 98 k \•p 5 4•k base 1.259•k dl grout gr out 1 conc 12.083. psf ballast.cgo i- Pcgo) base dI rpin.cgo l'hc vertical dead Ioad (lbasc)( \'p t I)allast.cgo 6.38 k I:.cceiitrici of the center of mass with respect to the center of the footing (posinvc load is to the right of the centroid) wbase 2 Short -term compressive load due to lateral forces (weight of concrete ballast) (weight of Cargo RPM) (weight of steel footing) (weight of grout:) -t 'ligroin 259.836 psf (total uniform load of RPM per square foot) Compression Ioad due to overturning I'he live load will be induced by the bearing pressure due to the governing lateral load. Bearing pressure will be tictcnn using 1: ncrcalc. cgc) 0 941 k (wind load due to Cargo RPM) 0 7 1, cgc) 0 89.k (seismic load due to Cargo RPM) latcral 'wind' (governing lateral load case) PXCC;c) maX(1 ^w cgc) 0 7 l'. 0 941 k (lateral load on RPM) The lateral load is applied at the center 01 the structure s mass (seismic) or at 1.05 X h/2 (wind). otm 7 389 -k ft (total overturning moment) reference Cargo lateral analysis (weight of Rings and ballasts, base plate entered directly into l .nercalc) X I) ar.rpm)( X•l cgo) `l' 2 \\Thaw) \*p ballasr.cgo ''base 10 415 in Page 2,x2 of st rpm.cgo 1035.5psf dl rpnl.cgo 775.664 ps11 Title Port Angeles. WA p Job 08 5777 Dsgnr Hsu Date: Ni E l E Enterprises, (r1 C Description adiation Portal Monitor 0697 Cage I3oolevoid Kennewick. WA 99336 e phone 509 /35 1589 a: 509 783.5015 Scope Dock framing analsyis (Rev B) :iv, .111111 emit: GGni User Kw- 0600591 Ver 5.8.0. 15-Jun-2007 General Footing Analysis Design 5777 s., Rev' 588002 uuduralcalcs (Rev 2).ecw.Calwtation (c)1983 -2007 ENERCM.0 Engineering Software M v.-... .^r^ --,r ,�-c±r,^ r .c :.;e.o. .sZ G3....: ,:>:::.t;:..,....:ai�a:4. r;- -r,.. x. .:e- r:- a^�... ..-.st Description Compression load from Cargo RPM due to overturning Cargo RPM base plate General Information Allowable Soil Bearing Short Terni Increase Seismic Zone Loads Live Short Term Combined fc Fy Concrete Weight Overburden Weight Applied Vertical Load. Dead Load Live Load Short Tenn Load Applied Moments. Dead Load Live Load Short Term Applied Shears. Dead Load Live Load Short Term Summary 5 OOft x 6.17ft Footing Max Soil Pressure Allowable 'X' Ecc, of Resultant 'Y' Ecc, of Resultant X -X Min. Stability Ratio Y Y Min. Stability Ratio Footing Design Shear Forces Two -Way Shear One -Way Shears. Vu Left Vu Right Vu Top Vu Bottom Moments Mu Left Mu Right Mu @Top Mu Bottom Code Ref: n.... w ACI 318-02 1997 UBC, 2003 IBC, 20 3 A 50 00 i 1,500.0 psf Dimensions. 1.000 Width along X -X Axis 5.000 ft 4 Length along Y Y Axis 6.167 It Footing Thickness 1.00 In Col Dim. Along X -X Axis 0.00 in Col Dim. Along Y Y Axis 0.00 in Base Pedestal Height 0.000 in 3,000.0 psi 60,000.0 psi 490.00 pcf 0.00 psf 6.380 k k k Creates Rotation about Y Y Axis (pressures left right) k -ft k -ft 7.390 k -ft Creates Rotation about Y Y Axis (pressures left right) k k 0.940 k DL +LL DL +LL +ST 463.2 1,035.5 psf 1,500.0 1,500.0 psf 8.698 in 20.430 in 0.000 in 0.000 in No Overturning 1.500 1 1.816 Min Steel Rebar Center To Edge Distance .ecc along X -X Axis 10.415 in .ecc along Y Y Axis 0.000 in Creates Rotation about X -X Axis (pressures top bot) k -ft k -ft k -tt Creates Rotation about X -X Axis (pressures top bot) k k k Max Mu Required Steel Area Shear Stresses. 1 -Way 2 -Way ACI C-1 ACI C -2 ACI C -3 Vn Phi 2,231 73 psi 2,304.23 psi 1 481.29 psi 186.23 psi 64.87 psi 122.41 psi 78.69 psi 93.11 psi 52.08 psi 1.93 psi 1.24 psi 93.11 psi 70.59 psi 70.59 psi 45.38 psi 93.11 psi 70.59 psi 70.59 psi 45.38 psi 93.11 psi ACI C -1 ACI C -2 ACI C -3 Ru Phi 0.68 k -ft -0.28 k -ft -0.18 k -ft 752.7 psi 0.71 k -ft 1 45 k -ft 0.93 k -ft 1614.0 psi 1.38 k -ft 1.38 k -ft 0.89 k -ft 1530.1 psi 1 38 k -ft 1.38 k -ft 0.89 k -ft 1530.1 psi 0.0000 0.00 in Actual Allowable 1 453 999.990 Vn Phi 122.407 93.113 psi 2304.232 186.228 psi As Req'd 999.99 in2 0.00 in2 0.00 in2 999.99 in2 Footing Shear Exceeded 1 Oin Thick, w/ Column Support 0 00 x 0 OOin x 0 Oin high per ft per ft per ft per ft V .14. 111L'ii.dt1C (:Uri Title Port Angeles, W Dsgnr Hsu 7(")/ ).t$- Date: lvl E I E R Enterprises, I n C Description Radiation Portal Monitor 8697 U Boulevard Kennewick. WA 99336 phone 509 1351589 fax 509 783.5075 Scope Dock framing analsyis (Rev,,13) Rev 580002 3 User KW- 0500591.Ver 5.8.0. 15- Jun -2007 General Footing Analysis Design 8777strucluralcalafRev2 ).ecw:Calculauon c 1983 -2(107 ENERCALC Engineering Software t Description Compression load from Cargo RPM due to overturning Cargo RPM base plate Soil Pressure Summary Service Load Soil Pressures DL LL DL LL ST Factored Load Soil Pressures ACI Eq. C -1 ACI Eq. C -2 ACI Eq. C -3 ACl Factors (Pe ACI C -1 C -2 DL ACI C -1 C -2 LL ACI C -1 C -2 ST .seismic ST r ACI 318 -02, Left Right Top Bottom 32.25 463.24 247 74 247 74 psf 0.00 1,035.50 247 74 247 74 psf 45.15 0.00 0.00 648.53 1 449.71 931.95 346.84 346.84 222.97 346.84 psf 346.84 psf 222.97 psf applied internally to entered loads) 1 400 ACI C -2 Group Factor 0.750 Add"! '1 4' Factor for Seismic 1 700 ACI C -3 Dead Load Factor 0.900 Add 'I '0.9' Factor for Seismic 1 700 ACI C -3 Short Term Factor 1.300 1 100 Used in ACI C-2 C -3 Job 08 -5777 1 400 0.900 M-- MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Customer PNN1.. Case •1. Determine tributary RPM dead load and lateral load wbml 7.25.111 w 156.984 plf w bm1 (s C D st bml C 0 1 0 0.85 1.33) 1 131 Case 13. Similar condition above, without the lateral load L21) (11.1,1111 w a di.bm1 156 984 plf w2b st. bn11 =0 ill 0 C D b Project No. 08 -5777 Date 468 631 plf 12/30/2008 By Hsu Ch. By job Description Port. Angeles. \X A (Rev 2) to single deck plank. (width of member) (uniform load per linear foot of member) (short -term compressive load due to lateral forces) (short term increase for wind /seismic) note. C1)(Ch4 C f C: C 'l'otal stress ratio 0.151 1 (uniform load per linear foot of member) (short -term compressive load due to lateral forces) (load duration factor) Total stress rano 0487 1 Case A governs. Beam is not overstressed. Stress ratio 0.151 1 New load induced by the RPM is less than the existing truck load. Design OK Page of 6 rt....Mei:AOC WM Rev 580004 User KW.0600591 Ver 5.8,0, 15-Jun-2007 (01083-2007 ENERCALC En(aneenng Software General Timber Beam 5777 structural cafes (Rev neew:Calculatton 1 Description 4x8 deck (new Case A) RPM lateral load General Information Section Name 4x8 Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Summa Center Span. Deflection .Location .Length/Defl Camber using 1.5 (4) Center Left Right Stress Calcs Bending Analysis Ck 27 141 Cf 1 000 (4) Center CA Left Support (4) Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Title Port Angeles, WA Job 08-5777 MEIER Enterprises, Inc Description iiadiation Portal 'Monitor Dsgnr Hsu Date' 8697 Gage I3oulevard Kennewick. WA 99336 1.-- phone 509 /35 589 fax 509 783 50/5 Scope Dock framing analsyis (Rev,,f3) Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 256.09 psi Fb 1,696.50 psi Deflections Le Rb 7.250 in 3.500 in Sawn 1 131 Pin-Pin 35.000 pcf Span= 2.00ft, Beam Width 7.250in x Depth 3.5in, Ends are Pin-Pin -0.001 in 1.000 ft 20,109.5 D.L. Defl 0.002 in 0.000 in 0.000 in 0.32 k-ft 0.00 k-ft 0.00 k-ft 0.00 k-ft 2.09 0.000 ft 0.000 Max Moment 0.32 k-ft 0.00 k-ft 0.00 k-ft Left Support 0.67 k 3.314 in2 203.58 psi 0.63 k 0.63 k Code Ref 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user definedil Center Span 2.00 ft .Lu 0.00 ft Left Cantilever ft .Lu 0.00 ft Right Cantilever ft .Lu 0.00 ft Douglas Fir Larch, Select structural Fb Base Allow 1,500 0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi 157 00 #/ft LL 468.60 #/ft Nit LL #/ft #/fl LL #fit 0.151 0.3 2.1 1 k-ft k-ft at 1.000 ft at 0.000 ft Reactions. fv 26.59 psi Left DL Fv 203.58 psi Right DL Dead Lqad Total Load Left Cantilever Dead Load -0.005 in Deflection 0.000 in 1.000 ft .Length/Defl 0.0 5,193.70 Right Cantilever Deflection 0.000 in .Length/Defl 0.0 Sxx CI 14.802 In3 631 767 Sxx Reo'd 2.23 in3 0.00 in3 0.00 in3 Right Support 0.67 k 3.314 in2 203.58 psi Bearing Length Req'd Bearing Length Req'd Maximum Shear t5 Allowable Shear Left Right Camber Left Center Right 0.16 k 0.16 k Area 25.375 in2 Allowable fb 1,696.50 psi 1,696.50 psi 1,696.50 psi 0.139 in 0.139 in Beam Design OK 0.7 k 5.2 k 0.63 k 0.63 k 0.000 in 0.002 in 0.000 in Max 0.63 k Max 0.63 k f2 VVS Total Load 0.000 in 0.0 0.000 in 0.0 1•r •�•,.n leierir c.curft Rev 580004 User KW-0600591 Vor5.8.0.15- Jun•2007 MEIER Enterprises, Inc Title Port Angeles, WA Dsgnr Hsu Date: Description Radiation Portal Monitor phonc 509 35 1589 fax 00:' 78.3 5075 Scope Dock framing analsyis (Rev.Bi 8691 Gage Boulevard Kennewick WA 99336 General Timber Beam (c)1983-2007 ENERCAI.0 Engineering Software Description 4x8 deck (new Case A) RPM lateral load Job 08 -5777 5777 structural calcs (Rev 2).ocv:Calculatron I;F Query Values -.,`Tn ,---e l: :,•:al. S .,g• :.,'..N .rt M, V 0 Specified Locations Moment Shear Deflection Center Span Location 0.00 ft 0.00k-ft 0.63 k 0.0000 in CI Right Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in Left Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in General Information Section Name 4x8 Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Center Span. Deflection .Location .Length/Defl Camber using 1.5 Center Left Right Stress Calcs Bending Analysis Ck 30.561 Cf 1.000 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv' Allowable Bearing Supports Max. Left Reaction Max. Right Reaction MEIER Enterprises, Inc 8697 Gaye Boul-vv<rrd phone 509 35 589 'AV1 >.ntefeline i:Vnl Rev 560004 User KW- 0500591 Ver 5.8.0. 15-Jun-2007 General Timber Beam (c)1983 -2007 ENERCALC Engmeenng Software T Description 4x8 deck (new Case B) RPM only Summary Span= 2.00ft, Beam Width 7.250in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow 1.65 fb 66.14 psi Fb 1,338.00 psi Deflections Le Rb Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined 7.250 in 3.500 in Sawn 0.892 Pin -Pin 35.000 pcf 0.08 k -ft 0.00 k -ft 0.00 k -ft 0.00 k -ft Dead Load -0.001 in 1.000 ft 20,109.5 D.L. Defl 0.002 in 0.000 in 0.000 in Reactions. fv 6.87 psi Left DL 0.16 k Fv 160.56 psi Right DL 0.16 k 0.000 ft 0.000 Max Moment 0.08 k -ft 0.00 k -ft 0.00 k -ft Left Support 0.17 k 1 085 in2 160.56 psi 0.16 k 0 16 k Kennewick WA 99336 ax 509 783 5075 157.00 /ft LL /ft /ft LL /ft /ft LL /ft Depth 3.5in, Ends are Pin -Pin 0.049 1 0.1 k -ft 1.7 k -ft at 1.000 ft at 2.000 ft Sxx 14.802 in3 CI 163.167 Sxx Req'd 0.73 in3 0.00 in3 0.00 in3 Right Support 0.17 k 1.085 in2 160.56 psi Title Port Angeles, A Dsgnr• Hsu <+Cf,,, Date: Description Radiation Portal Monitor Scope Dock framing analsyis (RewB) Center Span 2.00 ft Left Cantilever ft Right Cantilever ft Douglas Fir Larch, Select structural Fb Base Allow 1,500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi Bearing Length Req'd Bearing. Length Req'd Maximum Shear *1 5 Allowable Shear Camber .Lu .Lu .Lu Area 25.375 in2 Allowable fb 1,338.00 psi 1,338.00 psi 1,338.00 psi 0.2 k 41 k Left 0.16 k Right 0.16 k Left 0.000in Center 0.002In Right 0.000in Max Max Total Load Left Cantilever Dead Load Total Load -0.001 in Deflection 0.000 in 0.000 in 1.000 ft .Length /Defl 0.0 0.0 20 109.48 Right Cantilever Deflection 0.000 in 0.000 in .Length /Defl 0.0 0.0 0.036 in 0.036 in 5777 structural sates (Rev 2).ecw:Calwlation H 0.00 ft 0.00 ft 0.00 ft Job 08 -5777 t C. Beam Design OK 0.16k 0.16 k MEIER Enterprises, Inc 8697 Gage (3oubvald Kennewick. WA 951336 phone 509 /35 1 539 ax 509 783 b075 Scope Dock framing analsyis (Rev.B) Rev' 580004 User KW- 0600591 Ver 5.8.0. 15- Jun -2007 (c)1083-2007 ENERCALC Engineering Software 1 r.1. 4,-..::Kw- e,::,.._ r:.. .vim Description 4x8 deck (new Case B) RPM only General Timber Beam Title Port Angel s, W0 Dsgnr Hsu 1 Date: Description Radiation Portal Monitor 5777 structural colts (Rev 21.ecw:Calculalwn] 1 Query Values M, V D i Specified Locations Moment Shear Deflection Center Span Location 0.00 ft 0.00 k -ft 0.16 k 0.0000 in Right Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in Left Cant. Location 0.00 ft 0.00 k -ft 0 00 k 0.0000 in Job 08 -5777 MEIER Enterprises Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By 11su Ck. By Customer PNNI., Job Description Port Angeles. WA (Rev 2) VERTICAL ANALYSIS. 6x13 Stringer, bm2 Check stringer to withstand truck load The stringer is rough sawn lumber Load is applied in the direction of the strong axis. wb Gin (width of member) d bn12 13m (depth of member) l bm2 I Oft (length of member) tribb 24111 (tributary width to mcmbei) Che existing dead Toad condition for the member L)1(11.bn12 (dl 57 917 plf (uniform dead load per linear foot of member) (d ban 1) rl:ibbi112)Ow(i) CD.bm2 C.D(1 0, 1 0 0.85 1 0) 0.85 :(short•tt' 1911 increase .for-wincilserslrric) Case Direction of traffic in the 1. orientation. Place the maximum load centered along the nlembcr s span. 1.. se the wheel base as defined per figure 3 7 7..\ 011 page 22 of AASI-I"1'C) 'bm2 611 (center to center spacing of axle loads) P1 2 Pure 8 k (maximum tire load per. axle} Total stress ratio 0.780 1 1 otal stress ratio 0 840 1 1 otal stress ratio 1.043 1 ase 13 Direction of traffic in the N -S orientation. 1 urn the stringer 90 -deg and place one halt of the axle load at the mid -span of the beam. 24 —G 1)2 11.bm2 (2) 24 1 24 6 k (conc'd load) Case 1'v'pe 3S2 truck N S orientation. 4 fills loading will increase existing stresses. Par RPM analysis, conservative to use Case 13 This resluts in greater percentage of new P P stresses. 24 —G 155k P3 11.bm2 24 2 5 8131: (cone d load) Stringer Case A governs. Beata is overstressed. Stress ratio 1.043 1 note. (cjl (:fit c:. (s 1 1 P Stringer (tire) Page of L" 2 8K P Girder Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Point Loads Dead Load Live Load distance Max Stress Ratio Maximum Moment Allowable Max, Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1,204 40 psi Fb 1 453.27 psi Deflections Center Span. Deflection .Location .Length/Defi Camber using 1.5 D. Center Left Right Title Port Angeles, WA Dsgnr• Hsu /ff Date: MEIER Enterprises, Inc Description Radiation Portal Monitor 860 Gage Boulevard Kennewick. WA 99336 phone 509 i35 539 fax 509 183.5075 Scope Dock framing analsyis (Rev.8) 1',..Aii.tnEit,f 1(10 cunt 'Rev: 580004 User KW-0600591 Ver 5.0.0.15-Jun-2007 General Timber Beam 5777 structural calcs (Rev necw:Calculalion (c)1983-2007 ENERCALC Engineering Software .7'7, 4 ,a9Vr..''T•7(Z7W:Tf.'oj."'FIS7.'P..7SFCZ''..7 Description 6x13 stringer (existing, Case A) truck load (traffic in E W direction perpendicular to stringer) General Information Code Ref 1997/2001 NDS, 2000/2003 IBC 2003 NFPA 5000. Base allowables are user defined r lbs 8,000.0 lbs 2.000 ft 6.000 in 13.000 in Sawn 0.850 Pin-Pin 35.000 pcf lbs 8,000.0 lbs 8.000 ft Summary Span= 10.00ft, Beam Width 6.000in x Depth 13.in, Ends are Pin-Pin Dead Load -0.008 in 5.000 ft 14 464 7 L. Defl 0.012 in 0.000 in 0.000 in 16.96 k-ft 0.00 k-ft 0.00 k-ft 0.00 k-ft 20.47 fv 159.65 psi Fv 153.00 psi Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E 10.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi 58.00 #/ft LL Nit #/ft LL #/ft #/ft LL #/ft .Lu .Lu .Lu lbs lbs 1.043 1 17.0 k-ft 20.5 k-ft lbs lbs lbs lbs lbs lbs 0.000 ft 0.000 ft 0.000 ft 0.000 ft at 5.000 ft at 10.000 ft Reactions. Left DL Right DL Right Cantilever Deflection .Length/Defl 0.00 ft 0.00 ft 0.00 ft Repetitive Member Job 08-5777 Irsajl lbs lbs 0.000ft Overstressed in Shear Maximum Shear 1.5 12.5 k Allowable 11.9 k Shear Left 8.38 k (4) Right 8.38 k Camber Left 0.000 in Center 0.0121n Right 0.000in 0.38 k Max 8.38 k 0.38 k Max 8.38 k Total Load Left Cantilever Dead Load 0.165 in Deflection 0.000 in 0.000 in 5.000 ft .Length/Defl 0.0 0.0 727.06 Total Load 0.000 in 0.000 in 0.0 0.0 Vi !f Ii= ieii1C cunt Rev 580004 User KW- 0800591 Ver 5.8.0. 15-Jun-2007 General Timber Beam (c)1983.2007 ENERCALC Engtneeang Software w ti, Description 6x13 stringer (existing, Case A) truck load (traffic in E -W direction perpendicular to stringer) Stress Calcs Bending Analysis Ck 31.307 Cf 0.991 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location MEIER Enterprises, Inc 869i Gage Boulevard Kennoaick. WA 99336 phone 500 /3a 589 ax 509 /83.5075 Scope Dock framing analsyis (Rev p) Le Rb 0.000 ft 0.000 Max Moment 16.96 k -ft 0.00 k -ft 0.00 k -ft Left Support 12.45 k 81.389 in2 153.00 psi 8.38 k 8.38 k 0.00 ft 0.00 ft 0.00 ft Title Port Angeles, WA Dsgnr Hsu l 4 Date: Description Radiation Portal Monitor Sxx 169.000 in3 Area 78.000 in2 CI 8384.792 Sxx Reo'd Allowable fb 140.06 in3 1 453.27 psi 0.00 in3 1 453.27 psi 0.00 in3 1 453.27 psi Right Support 12.45 k 81.389 in2 153.00 psi Bearing Length Req'd 2.236 in Bearing Length Req'd 2.236 in Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft 5777 srruclural cafes (Rev 2).ecw:Cafcufatron j Shear Deflection 8.38 k 0.0000 in 0.00 k 0.0000 in 0.00 k 0.0000 in Job 08 -5777 I.. VA''W ni$itl if LU11 Rev 580004 User KW- 0600581 Vet' 5.8.0,15Jun•2007 3. Software r General Timber 5 �Cal `araion erter Beam (c)1982007 ENERCALC Engineering 777 structural talcs (Rev 2).0 Description 6x13 stringer (existing, Case B) truck Toad (traffic in N -S direction parallel to stringer) General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Point Loads Dead Load lbs Live Load 6,000.0 lbs .distance 5.000 ft Summ Fb 1 453.27 psi Deflections Center Span. Deflection .Location .Length /Deft Camber using 1.5 Center Left Right METER Enterpnses, Inc 669/ (jag(. Baultvard Ken}awick WA 99336 phone 509 735 1589 fax 509 783 5075 6.000 in 13.000 in Sawn 0.850 Pin -Pin 35.000 pcf Span= 10.00ft, Beam Width 6.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1 133.39 psi Dead Load -0.008 in 5.000 ft 14,464 7 D.L. Defl 0.012 in 0.000 in 0.000 in Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowabies are user defined I; 58.00 /ft /ft /ft 0.00 k -ft 0 00 k -ft 20 47 fv 63.49 psi Fv 153.00 psi Center Span 10.00 ft Left Cantilever ft Right Cantilever ft Douglas Fir Larch, Select structural Fb Base Allow 1,500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1.900,0 ksi Ibs Ibs Ibs Ibs 0.000 ft 0.000 ft LL LL LL Reactions. Left DL Right DL Title Port Angeles, WA Dsgnr Hsu (C Date* Description Radiation Portal Monitor Scope Dock framing analsyis (Rev,B) #/ft /ft /ft lbs lbs 0.000 ft 0.38 k 0.38 k Right Cantilever Deflection .Length/Defl .Lu .Lu .Lu Ibs Ibs 0.000 ft 0.00 ft 0.00 ft 0.00 ft Repetitive Member Ibs Ibs 0.000 ft Depth 13.in, Ends are Pin -Pin 0.780 1 16.0 k -ft Maximum Shear 1 5 20.5 k -ft Allowable 11.9 k 15.96 k -ft at 5.000 ft Shear Left 3.38 k 0.00 k -ft at 10.000 ft Right 3.38 k 5.0 k Camber Left 0.000 in Center 0.012 in Right 0.000in Max 3.38 k Max 3.38 k Job 08 -5777 0.000 in 0.000 in 0.0 0.0 Ibs 0.000 ft Beam Design OK 1 Total Load Left Cantilever Dead Load T otal Lo ad -0.112 in Deflection 0.000 in 0.000 in 5.000 ft .Length /Deft 0.0 0.0 1,073,49 Stress Calcs Bending Analysis Ck 31.307 Cf 0.991 Center Left Support Right Support Shear Analysis Design Shear Area Required F• Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location MEIER Enterprises, Inc 8697 Gage t3oi.devard Kenn wick WA 99336 phone 509 3a 1589 far, 509 /83.5075 Scope Dock framing analsyis (Rev VA WI el lllc cunt Rev' 580604 User KW- 0600591 Vet 5.8.0. 15- Jun -2007 General Timber Beam (c)1983.2007 ENERCALC Engineering Software 5777 structural talcs (Rev 2).eav:Calculauon Description 6x13 stringer (existing, Case B) truck load (traffic in N -S direction parallel to stringer) Le Rb Title Port Angel s, Dsgnr• Hsu *4, Date: Description Radiation Portal Monitor 0.000 ft 0.000 Max Moment 15.96 k -ft 0.00 k -ft 0.00 k -ft Left Support 4.95 k 32.369 in2 153.00 psi 3.38 k 3.38 k 0.00 ft 0.00 ft 0.00 ft Sxx 169.0001113 CI 3384 792 Sxx Reed 131.80 in3 0.00 in3 0.00 in3 Right Support 4.95 k 32.369 in2 153.00 psi Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Area 78.000 in2 Allowable fb 1 453.27 psi 1 453.27 psi 1 453.27 psi 0.903 in 0.903 in Shear Deflection 3.38 k 0.00 k 0.00 k Job 08 -5777 0.0000 in 0.0000 in 0.0000 in 6? e v 't' rtictUtt G LVttl Rev 580004 User KW- 0800591. Ver 5.8.0. 15 -Jun -2007 (c)1983 -2007 ENERCALC EngneertogSoftware Description 6x13 stringer (existing, Case C) 3S2 truck load (traffic in N -S direction parallel to stringer) General Information Section Name Beam Width 6.000 in Beam Depth 13.000 in Member Type Manuf /So.Pine Bm Wt. Added to Loads Load Dur Factor 0.850 Beam End Fixity Pin -Pin Wood Density 35.000 pcf Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Po int Loads Dead Load lbs Live Load 5,850.0 lips .distance 3.000 ft Center Span. Deflection .Location .Length/Defl Camber using 1.5 Center Left Right MEIER Enterprises, Inc 869/ Gage Boulevard Kennewick. WA 99335 phone 509 135 589 fax 50 9 783 5075 tbs 5,850.0 lbs 7 000 ft Summary Span= 10.00ft, Beam Width 6.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow 22.03 fb 1,314 46 psi fv Fb 1,564.00 psi Fv Deflections 18.51 k -ft 0.00 k -ft 0.00 k -ft 0.00 k -ft Dead Load -0.010 in 5.000 ft 12,180.8 D.L. Deft 0.015 in 0.000 in 0.000 in General Timber Beam Code Ref 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined 58.00 /ft #/f1 /fl 118.30 psi 148.75 psi Center Span Left Cantilever Right Cantilever Southern Pine, Dense Fb Base Allow Fv Allow Fc Allow E lbs lbs 0.000 ft Depth 13.in, Ends are Pin -Pin 0.840 1 18.5 k -ft 22.0 k -ft at 5.000 ft at 10.000 ft Total Load -0.200 in 5.000 ft 601.06 LL /ft LL /ft LL #/ft Reactions. Left DL Right DL Title Port Angeles, WA L Dsgnr Hsu f r Date: Description Radiation Portal Monitor I-- Scope Dock framing analsyis (Rev IS) 10.00 ft ft It structural 65 2.5 1 600.0 psi 175.0 psi 440.0 psi 1,600.0 ksi [bs lbs ibs Ibs 0.000 ft 0.000 ft Maximum Shear 1 5 Allowable Shear 0.38 k 0.38 k Left Cantilever Deflection .Length /Defl Right Cantilever Deflection .Length /Deft Camber .Lu .Lu .t-u 5777 structural calcs (Rev 2).eav:Catculation Dead Load 0.000 in 0.0 0.00 ft 0.00 ft 0.00 ft Repetitive Member lbs lbs 0.000 ft Beam Design OK 9.2 k 11.6 k Left 6.23 k Right 6.23 k Left Q.000in Center 0.0151n Right 0.000 in Max 6.23 k Max 6.23 k Job 08 -5777 Total Load 0.000 in 0.0 0.000 in 0.000 in 0.0 0.0 lbs lbs 0.000 ft 8691 Gage Boulevard Konne,'ick. WA 99 phone 509 /35 1589 fax 509 783.507' h• Hid 111 Rev 580004 User KW- 0600591 Vor 5.8.0. 15-Jun-2007 General Timber Beam (c)1983 72007 ENERCALC Englneenng Software Description 6x13 stringer (existing, Case C) 3S2 truck load (traffic in N -S direction parallel to stringer) Stress Calcs Bending Analysis Ck 27.817 Cf 1.000 Le Rb Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V c D Specified Locations Center Span Location Right Cant, Location Left Cant. Location MEIER Enterprises, Inc 0.000 ft 0.000 Max Moment 18.51 k -ft 0.00 k -ft 0.00 k -ft Left Support 9.23 k 62.034 in2 148.75 psi 6.23 k 6.23 k 0.00 ft 0.00 ft 0.00 ft Title Port Ang fr9 Date: Dsgnr Hsu Description Scope Dock framing analsyis (Rev 8) Sxx 169.000 in3 Area 78.000 in2 CI 6234 792 Sxx Reo'd Allowable fb 142.04 in3 1,564.00 psi 0.00 in3 1,564.00 psi 0.00 in3 1,564.00 psi Right Support 9.23 k 62.034 in2 148.75 psi Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Radiation Portal Monitor 2.362 in 2.362 in Shear 6.23 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0,0000 in Job 08 -5777 5777 structural talcs (Rev 2).ecw.Catculation M MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone. 509.735.1589 fax: 509.783.5075 Page Of rr www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Clc. 13y Lv Customer PNNL job Description Port. Angeles. \\/A (Rev 2) Check Stringer to withstand RPM load (.'ase. A. The worst case Caro RPM load is checked alone, without the load of the truck. wl dl.bm2 57 917 plf (dead load per linear foot of member) w11 c11.1=9 (tribhn2)cllrptn.cgo 519 671 plf (dead load of Cargo RPM per linear foot of member) w2 {o sr.biii2 (trilobm2)st 1551 329.plf (maximum short -term load per linear foot of member) C D st.bm2 C D(1.0 1 0 0 85 1 33) 1 131 (short term increase for wind /seismic) note. CD(CM Cfu C 3. atcral load sl'. w rpm Girder Load Diagram Dotal stress ratt<o 0.748 1 dl Stringer —r 1 ase 13 Cargo RPM only center no lateral load '17 bm2 CD(1.0 1 0 0.85 1 0) 0.85 (load duration factor) note. CD( C fu C °t C 's) 1 oral stress ratio 0.285 1 M-- MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick. WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.melerinc.com Proposal No. Customer PNNI.. 5ict Project No. 08-5777 Date 12/30/2008 By Hsu <a:. By ter( Ti Job Descrtpuo) Port Angeles. \\'r1 (Rev 2) 1 tE e) E HT C„ lr d C-c. comtvi tylf Page of Y.ww u eietlt C ■ur11 Rev' 500004 User KW- 0600591. Ver 5.6.0, 15-Jun.2007 ()1903 -2007 ENERCALC Engineering Software Description 6x13 stringer (new Case A) RPM Toad lateral load General Information Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowabies are user defined 1 Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Trapezoidal Loads #1 DL Left DL Right #2 DL Left DL Right Summary Span= 10.00ft, Beam Width 6.000in x Depth 13.in, Ends are Pin -Pin Max Stress Ratio 0.748 1 Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1 446.90 psi Fb 1,933.70 psi De flections Center Span. Deflection .Location .Length /Dell Camber using 1.5 Center Left Right Title Port Angeles Dsgnr• Hsu Date: M E I E R Enterprises Inc Description tZadiation Portal Monitor 0697 Gage Boulevard K, iinoe/ick. WA 99336 phon•) 509 /35 1589 tax 509 783 5075 6.000 in 13.000 in Sawn 1 131 Pin -Pin 35.000 pcf 1,551.30 #/ft LL Left 1,551.30 #/ft LL Right 519.70 /ft LL Left 519.70 /ft LL Right Dead Load -0.167 in 5.000 ft 717.0 D.L. Dell 0.251 in 0.000 in 0.000 in 58.00 /ft /ft /ft 20.38 k -ft 0.00 k -ft 0.00 k -ft 0.00 k -ft 27.23 fv 105.37 psi Fv 203.58 psi General Timber Beam Center Span Left Cantilever Right Cantilever Douglas Fir Larch. Fb Base Allow Fv Allow Fc Allow E 20.4 k -ft 27.2 k -ft at 5.000 ft at 0.000 ft Total Load -0.167 in 5.000 ft 717.01 LL /ft LL #/ft LL /ft Reactions. Left DL Right DL Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi fl /ft Left Cantliever Deflection .Length/Defl Right Cantilever Deflection .Length /Deft Scope Dock framing analsyis (Rev B) 10.00 ft .Lu 0.00 ft ft .Lu 0.00 ft ft .Lu 0.00 ft /ft Start Loc 2.500 ft /ft End Loc 7.500 ft Maximum Shear 1 5 Allowable Shear Camber 5.56 k 5.56 k Start Loc End Loc 5777 Structural talcs (Rev 2).ecw:Calculation Repetitive Member 2.500 ft 7.500 ft Beam Design OK 8.2 k 15.9 k Left 5.56 k Right 5.56 k Left 0.000 in Center 0.251 in Right 0.000 in Max 5.56 k Max 5.56 k Job 08 -5777 Dead Load Total Load 0.000 in 0.000 in 0.0 0.0 0.000 in 0.000 in 0.0 0.0 Stress Calcs Bending Analysis Ck 27 141 Le Cf 0.991 Rb MEIER Enterprises, Inc 8697 Gage Boulevard Konnvi ick. WA 99336 phone 509 735 589 fax 509 /83.5075 vAvvi.niiiit.tinc Qom Rev 580004 Uer. 5 Ver 7 General Timber Beam (c)1983-2007 ENERCAL6 Engineering Software 5777 structural talcs (Rev 2).eow:Calculatton Description 6x13 stringer (new Case A) RPM load lateral load Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values m, v D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 0.000 ft 0.000 Max Moment 20.38 k-ft 0.00 k-ft 0.00 k-ft Left Support 8.22 k 40.371 in2 203.58 psi 5.56 k 5.56 k 0.00 ft 0.00 ft 0.00 ft Title Port Angeles,)/VA Dsgnr Hsu /et Date: Description Radiation Portal Monitor Scope Dock framing analsyis (Rev'B) Sxx 169.000 in3 Area 78.000 in2 CI 5562.290 $xx Reo'd Allowable fb 126.46 in3 1,933.70 psi 0.00 in3 1,933.70 psi 0.00 in3 1,933.70 psi Right Support 8.22 k 40.371 in2 203.58 psi Bearing Length Req'd 1 483 in Bearing Length Req'd 1 483 in Moment 0.00 k-ft 0.00 k-ft 0.00 k-ft Shear Deflection 5.56 k 0.0000 in 0.00 k 0.0000 in 0.00 k 0.0000 in Job 08-5777 t7tst=7:41 MEIER Enterpnses, Inc 869 Gage Boulevard Kennewick WA 99336 phone 500 '35 1589 fax 509 /83 5075 Wl rneivrit C cUttl Rev 580004 User KW-0600591 Ver 5.8 0,15-Jun-2007 General Timber Beam (0,983-2007 ENERCALC Evrteertng Software Description 6x13 stringer (new Case B) RPM load no lateral load General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center Left Cantilever Right Cantilever Trapezoidal Loads #2 DL Left 519.70 #/ft OL Right 519.70 #Ift Summary Span= 10.00ft, Beam Width v.: 6.000in x Depth 13.in, Ends are Pin-Pin Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 414.25 psi Fb 1 453.27 psi Deflections Center Span. Deflection Location .Length/Defl Camber using 1.5 Center Left Right Stress Cates Bending Analysis Ck 31.307 Cf 0.991 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv' Allowable Bearing Supports Max. Left Reaction Max. Right Reaction DL DL OL 6.000 in 13.000 in Sawn 0.850 Pin-Pin 35.000 pcf 5.83 k-ft 0.00 k-ft 0.00 k-ft 0.00 k-ft 20.47 fv Fv Dead Load -0.048 in 5.000 It 2,489.0 D.L. Defl 0.072 in 0.000 in 0.000 in Le Rb 0.000 ft 0.000 Max Moment 5.83 k-ft 0.00 k-ft 0.00 k-ft Left Support 2.40 k 15.695 in2 153.00 psi 1.68 k 1.68 k Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base altowables are user defined 58.00 #Ift #/ft #/ft LL LL Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E Left Right 0.285 1 5.8 k-ft 20.5 k-ft at 5.000 ft at 0.000 ft Sxx 169.000 in3 CI 1684.041 Sxx Req'd 48.17 in3 0.00 in3 0.00 in3 Right Support 2.40 k 15.695 in2 153.00 psi Title Port Angeles3V1 Dsgnr Hsu Are Date: Description Radiation Portal Monitor Scope Dock framing analsyis (Rev B) 10.00 ft It ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi LL #/ft LL #/ft LL #/ft #Ift f t Bearing Length Req'd Bearing Length Req'd •Lu .Lu .Lu Start Loc End Loc Maximum Shear 1.5 Allowable Shear Reactions. 30.79 psi Left DL 1.68 k 153.00 psi Right DL 1.68 k Area 78.000 in2 Allowable fb 1 453.27 psi 1 453.27 psi 1 453.27 psi 0.449 in 0.449 in 5777 structural calcs j Rev 2).ecw:Catculation 2 ,...-.:ce..: 0.00 ft 0.00 ft 0.00 ft Repetitive Member 2.500 ft 7.500 ft Beam Design OK 2.4 k 11.9 k Left 1 68 k Right 1.68 k Camber Left 0.000in Center 0.072in Right 0.000in Max 1.68k Max 1.68 k Job 08-5777 Total Load Left Cantilever Dead Load Total Load -0.048 in Deflection 0.000 in 0.000 in 5.000 ft .Length/Deft 0.0 0.0 2,489.01 Right Cantilever Deflection 0 000 in 0.000 in .Length/Deft 0.0 0.0 MEIER Enterprises, Inc 8607 Gage Boulevard Kennewick. WA 99336 phone 509 /35 589 fax 509 783 50/5 Scope Title Port M Dsgnr• Hsu Description gels W�4 Date' adiation Portal Monitor .'/V nleii.lin; will Rev 680004 USW" KW-0600591 Ver5.8.0.15•Jun•2007 General Timber Beam (019834007 ENERCALC Engmeenng Software ^r -rc-- Mrrn� •m"'"�S s �.7_...._ Description 6x13 stringer (new Case B) RPM load no lateral load n_ Dock framing analsyis (Rev 5777 structural talcs (Rev 2).ecw:Calculatwn j Query Values M, V D Specified Locations Moment Shear Deflection Center Span Location 0.00 ft 0.00 k -ft 1.68 k 0.0000 in Right Cant. Location 0.00 ft 0.00k -ft 0.00 k 0.0000 in Left Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in Job 08 -5777 MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509 783.5075 Page _IL of C 7---- www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 13y Hsu Ck. 131 Customer PNNI, .lob Description Port Angeles, \VA (Rev 2) Case C The load of the truck will be applied at mid-span to a similar condition as above. It is assumed the edge of the RP1VI will be no closer than 1' -0 from the center of tuc. 1' (tire) Girder V P211.bm2 Pore 4 I: rrib2b 1 ft 4io 1 333 ft Lateral load w2 d1.bm2 trib 3 24in rrib2b W 2 24in C 1) st bm2 1 131 Case D• Similar to C, no lateral load C 1.) bm2 0.85 I,oad Diagram 0 -I'd r f 1 15 482 p1f 344 74 plf P Strider 1/2 'total stress ratio 0.808. 1 Total stress ratu> 1.037. 1 st dl Case D governs. Beam is not overstressed. Stress ratio 1.037 1 New load induced by the RPM is less than the existing truck load. Design OK w.rl?m note. Cargo RPM centered on gilder MEIER Enterprises, Inc 8691 Gage Boulevard Kennewick. WA 99336 phone 509 '35 1589 fei, 50 783.Q075 l'h'JS'..ri lt'll,f ll L Conn Rev 580004 l" User KW- 0600591. Ver5.8.0, 15- Jun -2007 e e Timber Beam (c)1983 -2007 ENERCALC Engineering Software 5777 structural talc (Rev s (R 2).e rCalcuiation ,f r .t Description 6x13 stringer (new Case C) RPM, truck load lateral load General information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Trapezoidal Loads #1 DL Left DL Right #2 DL Left DL Right Point Loads Dead Load Live Load .distance Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1,561.95 psi Fb 1,933.70 psi Deflections Center Span. Deflection .Location .Length /Deft Camber using 1.5 Center Left Right 6.000 in 13.000 in Sawn 1 131 Pin -Pin 35.000 pcf 115.50 /ft 115.50 #/ft 344 70 #/ft 344 70 /ft Ibs lbs 8,000.0 lbs Ibs 5.000 ft 0.000 ft Dead Load -0.018 in 5.360 ft 6,496.6 D.L. Defl 0.028 in 0.000 in 0.000 in 58.00 /ft /fl /ft 0.808 1 22.0 k -ft 27.2 k -ft 22.00 k -ft at 5.000 ft 0.00 k -ft at 10.000 ft 0.00 k -ft 0.00 k -ft 27.23 fv 95:73 psi Fv 203.58 psi LL Left LL Right LL Left LL Right Title Port Angeles, WA Dsgnr Hsu Date: Description Radiation Portal Monitor Scope Dock framing analsyis (Revs Code Ref: 1997/2001.NDS, 2000/2003 IBC, 2003 NFPA 5000 Base allowables are user defined I, Center Span 10.00 ft Left Cantilever ft Right Cantilever ft Douglas Fir Larch, Select structural Fb Base Allow 1,500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi LL LL LL Ibs Ibs 0.000 ft Summary Span= 10.00ft, Beam Width 6.000in x Depth 13.in, Ends are Pin -Pin Reactions. Left DL Right DL Ibs lbs 0.000 ft /ft 0.59 k 1.56 k Ibs Ibs 0.000 ft .Lu .Lu .Lu #/ft #/ft /ft Start Loc 7.000 ft #/ft End Loc #/ft Start Loc #/ft End Loc Maximum Shear 1 5 Allowable Shear Left Right Camber Left Center Right Max Max 0.00 ft 0.00 ft 0.00 ft Repetitive Member 10.000 ft 7.000 ft 10,000 ft Job 08 -5777 gi Ibs Ibs Ibs Ibs 0.000 ft 0.000 ft Beam Design OK 7.5 k 15.9 k 4.59 k 5.56 k 0.000 in 0.028 in 0.000 in 4.59k 5.56 k Total Load Left Cantilever Dead Load Total Load -0.156 in- Deflection 0.000 In 0.000 in 5.040 ft .Length /Deft 0.0 0.0 767 45 Right Cantilever Deflection 0.000 in 0.000 in .Length /Deft 0.0 0.0 '.4'v4.111cj G<411 Rev 580004 User KW- 0800591 Ver 5 8.0. 15-Jun-2007 (c)1983.2007 ENERCALC Engineering Software Bending Analysis Ck 27 141 Cf 0.991 Center Left Support Right Support Shear Analysis Design Shear Area Required .Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location MEIER Enterprises, Inc 8697 Gag%: Boulevard Kohn;; rick. WA 99336 phon:; 509 735 589 titx 509 783 50 5 Description 6x13 stringer (new Case C) RPM truck load lateral load Le Rb 0.000 ft 0.000 Max Moment 22.00 k -ft 0.00 k -ft 0.00 k -ft Left Support 6.76 k 33.221 in2 203.58 psi 0.00 ft 0.00 ft 0.00 ft General Timber Beam Stress Calcs Sxx 169.000 in3 CI 4591.882 Sxx Reo'd 136.51 in3 0.00 in3 0.00 in3 Right Support 7 47 k 36.680 in2 203.58 psi 4.59 k Bearing Length Req'd 5.56 k Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angeles .WA Dsgnr• Hsu Date: Date: Description Radiation Portal Monitor Scope Dock framing analsyis (Rev') Area 78.000 in2 Allowable fb 1,933.70 psi 1,933.70 psi 1,933.70 psi 1.225 in 1 482 in Shear 4.59 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0.0000 in Job 08 -5777 5777 structural talcs (Rev 2).ocw :Ca1culation I v 'e,r.nleletkic GVni Rev 580004 B User KW- 0600591 Ver 5.8.0, 15.1. n -2007 Timber ea m (c)1983 -2007 ENERCALC Engmeenng Software u (R erw.Ca on c. -cY•r 1..- �..M1 771 cup.. r General Y 5777 structural cal (Rev 2). Icul Description 6x13 stringer (new Case D) RPM truck load, no lateral Toad General Information Section Name Beam Width 6.000 in Beam Depth 13.000 in Member Type Sawn Bm Wt. Added to Loads Load Dur Factor 0.850 Beam End Fixity Pin -Pin Wood Density 35.000pcf Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Trapezoidal Loads #1 DL Left DL Right Point Loads Dead Load Live Load .distance Summary Title Port Angeles W Dsgnr Hsu /x' Date: JvlEIER Enterprises, Inc Description Radiation Portal Monitor 8691 Gage Boulevard Kennewick WA 99336 phone 509 735 1589 ax 509 783.50/5 Scope Dock framing analsyis (Rev B) lbs 8,000.0 Ibs 5.000 ft Span= 10.00ft, Beam Width 6.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max @Right Support Max. M allow fb 1,506.88 psi Fb 1 453.27 psi Deflections Center Span. Dead Load Deflection -0.011 in .Location 5.160 ft .Length /Deft 11,075.6 Camber using 1.5' D.L. Defl Center 0.016 in Left 0.000 in Right 0.000 in Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allow) defined j I es are user de Ibs Ibs 0 000 ft Center Span 10.00 ft Left Cantilever ft Right Cantilever ft Douglas Fir Larch, Select structural Fb Base Allow 1,500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi 58.00 /ft LL /ft LL /ft LL Ibs Ibs 0.000 ft Depth 13.in, Ends are Pin -Pin 1 037 1 21.2 k -ft 20.5 k -ft 21.22 k -ft at 5.000 ft 0.00 k -ft at 10.000 ft 0.00 k -ft 0.00 k -ft 20.47 Reactions. fv 85.99 psi Left DL Fv 153.00 psi Right DL Total Load -0.149 in 5.000 ft 806.40 Ibs Ibs 0.000 ft Left Cantilever Deflection .Length /Defl Right Cantilever Deflection .Length/Defl #/ft /ft #/ft 115.50 /ft LL Left #/ft Start Loc 115.50 /ft LL Right #/ft End Loc Ibs Ibs 0.000 ft Maximum Shear 1 Allowable Shear 5 6.7 k 11.9 k Left 4 44 k Right 4.68 k Camber Left 0.000in Center 0.016in Right 0.000in 0.44 k Max 0.68 k Max .Lu 0.00 ft .Lu 0.00 fl .Lu 0.00 ft Dead Load 0.000 in 0.0 Ibs Ibs 0.000 ft Overstressed in Bending 0.000 In 0.0 Repetitive Member Job 08 -5777 7.000 ft 10.000 ft Ibs Ibs 0.000 ft 4 44 k 4.68 k Total Load 0.000 in 0.0 0.000 in 0.0 Stress Calcs Bending Analysis Ck 31.307 Cf 0.991 MEIER Enterprises, Inc 8697 tragc t3oulkvard Kvnne,vick WA 99336 pliant 500 '35 1589 fox o09 783 o0i5 Le Rb Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 0.000 ft 0.000 Max Moment 21.22 k -ft 0.00 k -ft 0.00 k -ft Left Support 6.53 k 42.683 in2 153.00 psi 4 44 k 4.68 k 0.00 ft 0.00 ft 0.00 ft Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angele WA Dsgnr• Hsu Date: Description Radiation Portal Monitor Scope Dock framing anatsyis (Rev.BB 1, 'L'i (11eieHlr Rev 580004 User KW -0600581 Ver 5.8.0. 15- Jun -2007 ener a Timber Beam (c)1983 -2007 ENERCALC Engineering Software talcs slnrctura ce (R v 2).ecw alWlehon Description 6x13 stringer (new Case D) RPM truck load, no lateral Toad Sxx 169.000 in3 Area 78.000 in2 CI 4436.767 Sxx Recl Allowable fb 175.23 in3 1 453.27 psi 0.00 in3 1 453.27 psi 0.00 in3 1 453.27 psi Right Support 6.71 k 43.838 in2 153.00 psi Bearing Length Req'd Bearing Length Req'd 1 183 in 1.248 In Shear 4 44 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0.0000 in Job 08 -5777 MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509 735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ch By Customer PNN1., VERTICAL ANALYSIS. 12x13 Girder, bm3 Check girder to withstand truck load 1'hc girder is rough sawn lumber The orient:anon of the member vanes from strong and weak axis. T'or the purpose of design, assume the member 1s loaded about the weak axis. w bm3 13in (width of member) (11 12in (depth of member) 111113 1 Ofr (length of member) rribl 10ft (tributary width to member) The existing dead load condition for the member. w l dl.bm3 (dlaCp)(tribbm3) (c1bm1)(tribbnl2)(1�cu1) (tcibbm3)�1wd) 587.083 1 1f (uniform dead load per linear foot of member) CD bn13 CD(1 0 1 0 0 85 1 0) 0.85 (short- term -for- fear- avltxl /setstnte)- note. CD( C fu 'r C m '1 raffle oriented in the N -S direction where the axle is parallel with the member note centering both tires on the member does not produce the worst case ],cord Case 1 w/ two svninlettleal point loads. 1i\1iiiax (P)(a) Load Case 2 w/ one conccntratcd point load: Mnlax (P)(1 /4) P111.l)113 2 ]r are 8 IC (concentrated point load on nlenlbei) bm3 6ft: (distance between point loads on member) P Girder Load Case 1 1) Case 3S2 1 ruck, N S direction fi` Does not govern. p P3 11.bm3 1)3 11.1m2 5.813-k Girder 1 Job Description Port Angeles, W.1 (Rex 2) 'Total stress ratio 0.839. 1 1 1) G irdcr Load Case 2: Governs "1'01:01 stress ratio 1.080 1 1) where. a 2fr where 1/4 2 1/2 ft Case 13. Traffic oriented m the 1 direction where the axle is perpendicular to the member resulting 7 P211.bm3 0 (1)axic) 1 1.2 k (tributary concentrated point load on member) Case B governs. Member is overstressed. Stress ratio 1.080 1 of (e" MEIER Enterprises, Inc 6697 Gage Boulevard Kenne 'ick WA 99336 j)horic: 500 735 589 fax !.)(19 i83.507o Title Port Angeles .WA Dsgnr Hsu Ar Date: Description Radiation Portal Monitor Job 08-5777 'q Scope Dock framing analsyis (Rev 0) toeietitic cum liev 580004 User KW0600591 Ver 5.8.0. 15-Jun-2007 General Timber Beam (c)1983-2007 ENERCAL0 Encaneering Software 5777 structorai czacs (Rev 2) ecw•Catcolatvan 1 r7' o-••••,.:,,t•F••=rt 57T:7n, T 7'17. u ....,z .S.,'-$57.1.17.77.7.727; Fr-7777TV FE71 A Description 12x13 girder (existing, Case A) truck load (traffic oriented in the N-S direction) General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Point Loads Dead Load Live Load .distance lbs 8,000.0 lbs 5.000 ft Summary .1 Span= 10.00ft, Beam Width 13.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1,069.67 psi Fb 1,275.00 psi Deflections Center Span. Deflection .Location .Length/Defl Camber using 1.5 D Center Left Right 13.000 in 12.000 in Sawn 0.850 Pin-Pin 35.000 pcf 27.81 k-ft Dead Load -0.040 in 5.000 ft 3,035.6 .L. Deft 0.059 in 0.000 in 0.000 in 0.00 k-ft 0.00 k-ft 0 00 k-ft Code Ref: 1997/2001 NDS, 2000/2003 IBC 2003 NFPA 5000. Base allowebtes are user defined 11 \-7 587.00 #/ft LL #/ft LL #/ft LL lbs lbs lbs lbs 0.000 ft 0.000 ft Depth 12.in, Ends are Pin-Pin 0.839 1 27.8 k-ft 33.1 k-ft at 5.000 ft at 10.000 ft 33.15 fv 62.50 psi Fv 153 00 psi Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E Total Load -0.121 in 5.000 ft 995.84 Reactions. Left DL Right DL 10.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi lbs lbs 0.000 ft #/ft #/ft Maximum Shear 1 5 Allowable Shear Camber 3.12 k 3.12 k Left Cantilever Deflection .Length/Defl Right Cantilever Deflection .Length/Defl ,Lu .Lu .Lu lbs lbs lbs lbs 0.000 It 0,000 ft 97 k 23.9 k Left 7 12 k Right 7 12 k Left 0.000in Center 0.059in Right 0.000in Max 7 12k Max 7 12 k Dead Load Total Load 0.000 in 0.000 in 0.0 0.0 0.000 in 0.0 0.00 ft 0.00 ft 0.00 ft lbs lbs 0.000ft Beam Design OK 0.000 in 0.0 Stress Calcs Bending Analysis Ck 31.307 Cf 1.000 Le Rb Center Left Support Right Support Shear Analysis Design Shear Area Required F• Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location MEIER Enterprises, Inc 0.000 ft 0.000 Max Moment 27.81 k -ft 0.00 k -ft 0.00 k -ft Left Support 9.75 k 63.722 in2 153.00 psi 7 12 k 7 12 k 0.00 ft 0.00 ft 0.00 ft Sxx 312.000 in3 CI 7124.582 Sxx Read 261 75 in3 0.00 in3 0.00 in3 Right Support 9.75 k 63.722 in2 153.00 psi 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angeles, Dsgnr• Hsu Date: Description Radiation Portal Monitor 869/ Gage Boulovard Kvnncwick WA 99336 phone 509 735 589 fox 509 783.50x'5 Scope Dock framing anaisyis (Rev,B) Rev 580004 User KW- 0800591 Ver 5.8.0. 15- Jun -2007 NERCALC Engmeenng Software General Timber Beam (c)1083.2007 E .:Y 577r 2).6CwCcrahor oral carts (Raw Description 12x13 girder (existing, Case A) truck load (traffic oriented in the N -S direction) Bearing Length Req'd Bearing Length Req'd Area 156.000 in2 Allowable fb 1,275.00 psi 1,275.00 psi 1,275.00 psi Moment Shear 0.877 in 0.877 in 7 12 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0.0000 in Job 08 -5777 f$39i C go Bouk •lard Konrtu rick. 1h 99336 phon; 509 7 35 i h89 fax 509 783.50fb vx'v,.nliaettoc cvnl Rev: 580004 Use KW- 0690591. Ver 5.8.0. 15- Jun -2007 (c)1083 -2007 ENERCALC Engineering Software Description 12x93 girder (existing, Case B) truck load (traffic oriented in the W direction) General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Point Loads Dead Load Live Load .distance Center Span. Deflection .Location .Length /Defl Camber using 1.5 Center Left Right MEIER Enterprises, Inc lbs 11,200.0 Ibs 5.000 ft 13.000 in 12.000 in Sawn 0.850 Pin -Pin 35.000 pcf Full Length Uniform Loads Center DL 587 00 /ft Left Cantilever DL #/ft Right Cantilever DL /ft lbs tbs 0.000 ft Summary Span= 10.00ft, Beam Width 13.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow 33.15 fb 1,377.36 psi fv Fb 1,275.00 psi Fv Deflections 0.00 k -ft 0.00 k -ft Dead Load -0.040 in 5.000 ft 3,035.6 D.L. Deft 0.059 in 0.000 in 0.000 in General Timber Beam Ibs Ibs 0.000 ft Total Load -0.153 in 5.000 ft 784.88 Title Port Angeles, WA Dsgnr• Hsu /4/ Date' Description Radiation Portal Monitor Scope Dock framing analsyis (Rev,) Center Span 10.00 ft Left Cantilever ft Right Cantilever ft Douglas Fir Larch, Select structural Fb Base Allow 1,500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi LL /fl LL /ft LL /ft Ibs Ibs 0.000 ft Right Cantilever Deflection .Length!Defl Camber' .Lu .Lu .Lu Depth 12.in, Ends are Pin -Pin 1.080 1 35.8 k ft Maximum Shear 1.5 33.1 k -ft Allowable 35.81 k -ft at 5.000 ft Shear 0.00 k -ft at 10 000 ft Reactions. 77.88 psi Left DL 3.12 k Max 153.00 psi Right DL 3.12 k Max 0.00 ft 0.00 ft 0.00 ft lbs tbs Ibs lbs 0.000 ft 0.000 ft 12.1 k 23.9 k Left 8.72 k Right 8.72 k Left 0.000in Center 0.059in Right 0.000in Left Cantilever Bead Load Deflection 0.000 in .Length /Defl 0.0 Job 08 -5777 5777 structural calcs (Rev 2).ecwCalculation i Code Ref: 1997/2001 NOS 2000/2003 IBC, 2003 NFPA 5000. Base aliowables are user defined t;a Overstressed in Bending 8.72 k 8.72 k tbs Ibs 0.000 ft 0.000 in 0.000 in 0.0 0.0 �.i Total Loa 0.000 in 0.0 Stress Calcs Bending Analysis Ck 31.307 Le Cf 1.000 Rh Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location MEIER Enterprises, Inc 869/ Gage Boulevard Kennewick. WA 99336 phone 609 736 580 fax 509 783 50(5 Description 12x13 girder (existing Case B) truck load (traffic oriented in the E -W direction) 0.000 ft 0.000 Max Moment 35.81 k -ft 0.00 k -ft 0.00 k -ft Left Support 12.15 k 79.408 in2 153.00 psi 8.72 k 8.72 k 0.00 ft 0.00 it 0.00 ft Sxx 312.000 in3 CI 8724.582 $xx Req'd 337.05 in3 0.00 in3 0.00 in3 Right Support 12.15 k 79.408 in2 153.00 psi Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angeles WA Dsgnr• Hsu "2 (r Date: Description adiation Portal Monitor Scope Dock framing analsyis (Rev 1'.1•SW,Itt lCt it IC Rev: 580004 User KW-0500591 Ver5.80.15 -Jun -2007 General Timber Beam (c)1983 -2007 ENERCALC Engrneenng Software rT 5777 structural talcs (Rev 2).ecw:Calculatron Area 156.000 in2 Allowable fb 1,275.00 psi 1,275.00 psi 1,275.00 psi 1.074 in 1.074 in Shear 8.72 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0.0000 in Job 08 -5777 lc MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. By Cv Customer PNNT. Job Description Port Angeles. WA (Rev 2) Check girder to withstand RPM load {-or this check Tile edge of the RPM is assumed to be offset 1 -0 from the are point load. See page Case A. RPM and lateral load. 1 raffle in N S orientation, RPM centered with the short axis parallel to the member. (dead load per linear foot of beam) Casc B. Similar to Casc without the lateral load C D.bm3 0 85 Case w1 dl.bm3 587 083 plf w2a dl.bm3 1602.319•plf Ml st.bm3 otm 7 389•k ft C D sr..bm3 .T CD(1.0 1 0 0 85 1 33) 1 131 P1 ll.bm3 8 k CD st.bm3 1 131 (tire) Girder. Y.- 4 5 y Lateral load Case D. Similar to Casc C no lateral CD bm3 0.85 Load Diagram (tributary dead load of RPM per linear foot) (short term moment load due to RPM, sec page 7—D (short tern Increase for wild /seismic) S1Ute. 'Dotal stress ratio 0.601 1 (short term increase for wind /seismic) note :1( 2N1 Cfu C C local stress ratio 0.689. 1 Similar to Case with the addition of one tire at the nitd -span of the girder (concentrated load directly on the girder) (short term increase for wind /seismic) note CD( Cfu C �i ,c sr) C C f l> dl Stringer rota) stress ratio 0.860 'I (short term increase for wind /seismic) note: C])(Chl Cfu CI C51) Dotal stress ratio 1.032 1 Case D governs. Beam is not overstressed. Stress ratio 1.032 1 New load induced by the RPM is less than the existing truck load. Design OK Page kt of sue' General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Dead Load in Live Load 88,662.301n .distance 5.000 ft Summary MEIER Enterprises, Inc 8697 Gage Boulevard 1<cnne.v ck WA 99336 phone 509 735 589 fax 509 733 x075 rt u ii.III CUM u s e r KW0000591 Vet 5 8 0 General Timber Beam (c)1983 -2007 ENERCALC Engrneenng Software 577 7 structural caks (Rev C a r._ c 'am e_1._. _.r r.��_., ti '"3: .tea T'. ^w: _'�.•_i_. a ?S anon Description 12x13 girder (new Case A) RPM lateral Toad (traffic oriented in N -S direction) 13.000 in 12.000 in Sawn 1 131 Pin -Pin 35.000 pct Trapezoidal Loads #1 DL Left 1,602.30 /ft LL Left /ft Start Loc DL Right 1,602.30 #/ft LL Right /ft End Loc Moment Loads Deflections Center Span. Dead Load Deflection -0.112 in .Location 5.000 ft .Length /Defl 1,073.8 Camber using 1.5 D.L. Deft Center 0.168 in Left 0.000 in Right 0.000 in Code Ref' 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allawabies are user defined .t,- cm.._,...__..,..:. :.':St.- w.c. t:".„ eT 7 Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E 10.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1.900.0 ksi 587 10 /ft LL #/ft #/ft LL /ft /ft LL #/ft in in 0.000 ft Span= 10.00ft, Beam Width 13.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow in in in in 0.000 ft 0.000 ft Depth 12.in, Ends are Pin -Pin 0.601 1 26.5 k -ft 441 k -ft 26.53 k -ft at 5.000 fl 0.00 k -ft at 0.000 It 0.00 k -ft 0 00 k -ft 4411 fb 1 020.32 psi fv 69.66 psi 1 Fb 1,696.50 psi Fv 203.58 psi Title Port Angeles A Dsgnr Hsu Date: Description Radiation Portal Monitor Scope Dock framing analsyis (Rev6) .Lu .Lu .Lu in in 0.000 ft Maximum Shear 1 5 Allowable Shear Total Load Left Cantilever -0.112 in Deflection 4 760 ft .Length/Defl 1,068.85 Right Cantilever Deflection .Length /Deft Camber Reactions. Left DL 7 13 k Right DL 7 13 k 10.9 k 31.8 k Left 7.87 k Right 7 13 k Left 0.000 in Center 0.168in Right 0 000 in Max 7.87 k Max 6.39 k Dead Load Total Load 0.000 in 0.000 in 0.0 0.0 0.000 in 0.0 0.00 ft 0.00 ft 0.00 ft 2.500 ft 7.500 ft Job 08 -5777 5 1/ /7 (n in in in 0.000 ft 0.000 ft Beam Design OK 0.000 in 0.0 tYC, It ietiItct Coni Rev 580004 User KW.0600591 Ver 5.8.0. 15- Jun.2007 (C)1983.2007 ENERCALC Engrneenng Software Description 12x13 girder (new Case A) RPM lateral Toad (traffic oriented in N -S direction) Stress Caics Bending Analysis Ck 27 141 Le Cf 1.000 Rb Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values Title Port An Dsgnr• Hsu ME I E R Enterprises, Inc Description 869/ Cage Boul:•vard Kuncl. rick. WA 99336 phone 509.135 589 fax 509 783 0075 Scope M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 0.000 ft 0.000 Max Moment 26.53 k -ft 0.00 k -ft 0.00 k -ft Left Support 10.87 k 53.380 in2 203.58 psi 7.87 k 6.39 k 0.00 ft 0.00 ft 0.00 ft General Timber Beam Sxx 312.000 in3 CI 7869.683 Sxx Read 187.64 in3 0.00 in3 0.00 in3 Right Support 8.65 k 42.492 in2 203.58 psi 5777 structural calcs (Rev 2):ecw:Catculatton c7:';^'� 'cams trr w72 -:C'• '"R? a .w'•:1:::-VT: A Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k- ft 0.00 k -ft geles, a Date: Radiation Portal Monitor Dock framing analsyis (Rev 81 Area 156.000 in2 Allowable fb 1,696.50 psi 1,696.50 psi 1,696.50 psi 0.969 in 0.787 in Shear Deflection 7 87 k 0.0000 in 0.00 k 0.0000 in 0.00 k 0,0000 in Job 08 -5777 t w uleielirlc cum Re 580004 User Kw -0800591 Vet 5.8.0.15 -Jun -2007 General Timber Beam (c)1083 -2007 ENERCAt.0 Engineering Software ....u. Description 12x13 girder (new Case B) RPM lateral load (traffic oriented in N -S direction) General Information Code Ref' 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Full Length Uniform Loads Center DL Leff Cantilever DL Right Cantilever DL Trapezoidal Loads #1 DL Left DL Right Summary Title Port Angeles, WA Dsgnr• Hsu /e Date: !v EIER Enterprises, Inc Description Radiation Portal Monitor 069/ Gaga t3otikvatd Keane, rick WA 99336 phone 509 735 1689 fax 509 783 5075 Scope Dock framing analsyis (Rev B) Span= 10.00ft, Beam Width 13.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 878.23 psi Fb 1,275.00 psi Deflections Center Span. Deflection .Location .Length /Defl Camber using 1.5 Center Left Right Stress Calcs Bending Analysis Ck 31.307 Cf 1.000 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Dead Load -0.112 in 5.000 ft 1 073.8 O.L. Defl 0.168 in 0.000 in 0.000 in Le Rb 13.000 in 12.000 in Sawn 0.850 Pin -Pin 35.000 pcf 22.83 k -ft 0.00 k -ft 0.00 k -ft 0.00 k -ft 33.15 0.000 It 0.000 Max Moment 22.83 k -ft 0.00 k -ft 0.00 k -ft Left Support 9 76 k 63.782 in2 153.00 psi 7 13 k 7 13 k 587 10 #/fl #/fl /ft Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow 10.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi LL #/ft LL /ft LL /lift .Lu 0.00 ft .Lu 0.00 ft .Lu 0.00 ft 1 602.30 #/ft LL Left /ft Start Loc 2.500 ft 1 602.30 #/ft LL Right /fl End Loc 7.500 ft Depth 12.in, Ends are Pin -Pin 0.689 1 22.8 k -ft 33.1 k -ft at 5.000 ft at 0.000 ft Reactions. fv 62.56 psi Left DL 7 13 k Max Fv 153.00 psi Right DL 7 13 k Max Sxx 312.000 in3 CI 7130.831 Sxx Req'd 214.91 in3 0.00 in3 0:00 in3 Right Support 9.76 k 63.782 in2 153.00 psi Bearing Length Req'd Bearing Length Req'd 5 9.8 k 23.9 k Left 7 13 k Right 7 13 k Camber Left 0.000 in Center 0.168in Right 0.000in Maximum Shear 1 Allowable Shear Total Load Left Cantilever Dead Load -0.112 in Deflection 0.000 in 5.000 ft .Length /Deft 0.0 1,073.80 Right Cantilever Deflection 0.000 in .Length /Deft 0.0 Area 156.000 in2 Allowable fb 1,275.00 psi 1,275.00 psi 1,275.00 psi 0.878 in 0.878 in Job 08 -5777 5777 structural talcs (Rev 2).ecw Calculation Beam Design OK 7 13k 7 13 k Total Load 0.000 in 0.0 0.000 in 0.0 MEIER Enterprises, Inc Title Port Angeles WA Dsgnr Hsu Date: Description Radiation Portal Monitor phono 509 35 589 fax 509 783 5075 Scope Dock framing analsyis (Rev.-8) 8697 Gage Boulevard Kennewick WA 99336 RV.r110iuir iG.vVt11 Rev 5800 General Timber Beam User KW 0800591 Ver 5.8.0. 15Jun -2007 (0 1983 -2007 ENERCAI.0 (Engineering Software_ Description 12x13 girder (new Case B) RPM lateral Toad (traffic oriented in N -S direction) Query Values M, V D Specified Locations Moment Shear Deflection Center Span Location 0.00 ft 0.00 k -ft 7 13 k 0.0000 in Right Cant. Location 0.00 ft O.00k -ft 0.00 k 0.0000 in Left Cant. Location 0.00 ft 0.00 k -ft 0.00 k 0.0000 in Job 0 8-5777 5777 structural talcs (Rev 2).ecn:Calculatton W■ .fl lOiLGfC COtn Rev 580004 User KW- 0600591. Vet 5.80.15- Jun•2007 General Timber Beam M1983.2007 ENERCALC Engineering Software .R -w ^ter:..:........ Description 12x13 girder (new Case C) RPM, truck, lateral Toad (traffic oriented in N -S direction) General Information Full Length Uniform Loads Center DL Left Cantilever DL Right Cantilever DL Trapezoidal Loads #1 DL Left DL Right Point Loads Dead Load Live Load .distance Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density Summary L Deflections Center Span. Deflection .Location MEIER Enterprises, Inc 869/ (cage Boulevard Konnvwick. WA 99336 phone 509 35 b49 x 5O'. ?33.50/5 Ibs 8,000.0 lbs 5.000 ft Moment Loads Dead Load in Live Load 88,662.30 in .distance 8.000 ft i 13.000 in 12.000 in Sawn 1 131 Pin -Pin 35.000 pcf 1,602.30 #Ift 1,602.30 /ft Span= 10.00ft, Beam Width 13.000in x Max Stress Ratio Maximum Moment Allowable Max. Positive Moment Max. Negative Moment Max Left Support Max Right Support Max. M allow fb 1 458.27 psi fv Fb 1,696.50 psi Fv 37.91 k -ft 0.00 k -ft 0.00 k -ft 0.00 k -ft 44 11 Dead Load -0.075 in 5.240 Ft .Length/Defl 1 610.2 Camber using 1.5 D.L. Defl Center 0.112 in Left 0.000 in Right 0.000 in Title Port Angeles WA Dsgnr Hsu �I Description a Date: iation Portal Monitor Scope Dock framing analsyis (Rev B) Job 08 -5777 5777 structural talcs (Rev 2).ecw:Calculat _[3 Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowabies are user defined li �y-.-..- eY• t... r•-.. �kl" l?,\-... rr. �S• ..•�,m:. t mac... .t .1 Center Span 10.00 ft .Lu 0.00 ft Left Cantilever ft .Lu 0.00 ft Right Cantilever It .Lu 0.00 ft Douglas Fir Larch, Select structural Fb Base Allow 1 500.0 psi Fv Allow 180.0 psi Fc Allow 625.0 psi E 1,900.0 ksi 587.00 /ft LL /ft /ft LL /ft #Ift LL #/ft LL Left /ft Start Loc LL Right #/ft End Loc lbs ibs 1bs Ibs lbs Ibs 0.000 ft 0.000 it 0.000 ft Ibs Ibs 0.000 ft in in in in in in in in 0.000 ft 0.000 ft 0.000 ft 0.000 fl Depth 12.in, Ends are Pin -Pin 0.860 1 37.9 k -ft 441 K -ft at 5.000 ft at 10.000 ft 89.29 psi 203.58 psi Reactions. Left DL 4 41 k Right DL 8.25 k Total Load Left Cantilever -0.174 in Deflection 5.120 ft .Length /Defl 688.81 Right Cantilever Deflection .Length /Deft 6.000 It 10.000 ft Ibs Ibs Ibs Ibs 0.000 ft 0.000 ft in in 0.000 ft Beam Design OK 13.9 k 31.8 k Left 9.15 k Right 11.51 k Camber Left 0.000in Center 0.112 in Right 0.000in Maximum Shear 1 5 Allowable Shear. Max 9.15k Max 11.51 k Dead Load 0.000 in 0.0 0.000 in 0.0 Total Load 0.000 in 0.0 0.000 in 0.0 In-# in 0.000 ft Stress Calcs Bending Analysis Ck 27 141 Cf 1.000 Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values MEIER Enterprises, Inc Le Rb M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 0.000 ft 0.000 Max Moment 37.91 k -ft 0.00 k -ft 0.00 k -ft Left Support 12.78 k 62.779 in2 203.58 psi 9.15 k 11.51 k 0.00 ft 0.00 ft 0.00 ft Sxx 312.000 in3 CI 9145.274 Sxx Req'd 268.19 in3 0.00 in3 0.00 in3 Right Support 13.93 k 68.419 in2 203.58 psi Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k- ft Title Port Anggles Dsgnr Hsu c` Date: Description Radiation Portal Monitor 669i Gage Boulevard Kennewick. WA 99 336 4- phone 509 /35 1589 fax 509 183 a0i 5 Scope Dock framing analsyis (Rev-f3) Area 156.000 in2 Allowable fb 1,696.50 psi 1,696.50 psi 1,696.50 psi 1126 in 1 417 in Shear 9.15 k 0.00 k 0.00 k Deflection 0.0000 in 0.0000 in 0.0000 in Job 08 -5777 t h7 .V,er.maiFfinc cum Rev 58000a User.KW0600591 Ver 5.6.0. 15-Jun-2007 General Timber Beam (01983.2007 ENERCALC Engmeenng Software ...;z;<•.r•<x••x-*s- —ia;, _�.ss yw.s_. z z -:tea 5777 structural oafcs (Raw ).ecvr a cuielwn Description 12x13 girder (new Case C) RPM truck, lateral load (traffic oriented in N -S direction) Title Port Angeles WA, Job 08 -5777 Dsgnr• Hsu (e;? Date: Description Radiation Portal Monitor 5697 Gage Boulevard Kennewick WA 99336 z" phone 509 35 1589 fax 509 783 5075 Scope Dock framing analsyis (Rev-8) MEIER Enterprises, Inc \WA% HI(IL.fir L: Lute &Ire= 5777 srrucl ecv. on Hera �m e e I cUt a ion structural Re Carwta Description 12x13 girder (new Case 0) RPM, truck, no lateral load (traffic oriented in N -S direction) General Information Section Name Beam Width Beam Depth Member Type Bm Wt. Added to Loads Load Dur Factor Beam End Fixity Wood Density 13.000 in 12.000 in Sawn 0.850 Pin -Pin 35.000 pcf Full Length Uniform Loads Center DL 587.00 #/ft Left Cantilever DL /ft Right Cantilever DL /ft Trapezoidal Loads #1 DL Left DL Right Point Loads Dead Load Live Load .distance Deflections Center Span. Deflection .Location .Length /Defl Camber using 1.5 Center Left Right lbs 8,000.0 lbs 5.000 ft Max Left Support Max Right Support Max. M allow fb 1,316.18 psi Fb 1,275.00 psi -0.075 in 5.240 ft 1,610.2 D.L. Defl 0.112 in 0.000 in 0.000 in Code Ref• 1997/2001 NDS, 2000/2003 IBC 2003 NFPA 5000. Base allowables are user defined °i ,.,+c^ new. er'. w•.YK`S' '..v.C•.,....".T <.A�t .y:: \.r.,. f .A \t. s._. Ibs lbs 0.000 ft 0.00 k -ft 0.00 k -ft 33.15 fv 96.39 psi Fv 153.00 psi Center Span Left Cantilever Right Cantilever Douglas Fir Larch, Fb Base Allow Fv Allow Fc Allow E LL LL LL 1 602.30 #/ft LL Left /ft Start Loc 6.000 ft 1,602.30 /ft LL Right #lft End Loc 10.000 ft Summary Span= 10.00ft, Beam Width 13.000in x Depth 12.in, Ends are Pin -Pin Max Stress Ratio 1.032 1 Maximum Moment 34.2 k ft Allowable 33.1 k -ft Max. Positive Moment 34.22 k -ft at 5.000 ft Max. Negative Moment 0.00 k -ft at 10.000 ft lbs Ibs: lbs... lbs lbs lbs lbs lbs 0.000 ft 0.000 ft 0.000 ft 0.000 ft Reactions. Left DL Right DL 10.00 ft ft ft Select structural 1,500.0 psi 180.0 psi 625.0 psi 1,900.0 ksi -0.155 in Deflection 5.120 ft .Length /Defl 772.38 #/ft /ft /ft .Lu .Lu .Lu Maximum Shear 1 5 Allowable Shear' Left Right Camber Left Center Right 441 k 8.25 k Dead Load Total Load Left Cantilever Dead Load 0.000 in 0.0 Right Cantilever Deflection .Length /Defl 0.00 ft 0.00 ft 0.00 ft lbs lbs 0.000 ft Overstressed in Bending Max Max 15.0 k 23.9 k 8.41 k 12.25 k 0.000 in 0.112 in 0.000 in 8.41 k 0.000 in 0.000 in 0.0 0.0 0.0 12.25 k Total Load 0.000 in Stress Calcs Bending Analysis Ck 31 307 Cf 1000 MEIER Enterprises, Inc 3697 Gage Boulevard Kennowic:k. WA 99336 Le Rb Center Left Support Right Support Shear Analysis Design Shear Area Required Fv Allowable Bearing Supports Max. Left Reaction Max. Right Reaction Query Values M, V D Specified Locations Center Span Location Right Cant. Location Left Cant. Location 8.41 k 12.25 k 0.00 ft 0.00 ft 0.00 ft Bearing Length Req'd Bearing Length Req'd Moment 0.00 k -ft 0.00 k -ft 0.00 k -ft Title Port Angeles �M1fA Dsgnr• Hsu J i Date: Description Radiation Portal Monitor G phone 500 735 589 fax 609 783.5015 Scope Dock framing analsyis (Rev-$) rni teiif C Vrin Rev' 500004 User KW- 0600591. Ver5.0.0.15- Jun -2007 General Timber Beam (01903 -2007 C•NEIRCALC Engineering Software Description 12x13 girder (new Case D) RPM truck, no lateral Toad (traffic oriented in N -S direction) 0.000 ft Sxx 312.000 in3 Area 156.000 in2 0.000 CI 8406.422 Max Moment Sxx Req'd Allowable fb 34.22 k -ft 322.08 in3 1,275.00 psi 0.00 k -ft 0.00 in3 1,275.00 psi 0.00 k -ft 0.00 in3 1,275.00 psi Left Support Right Support 11.67 k 15.04 k 76.289 in2 98.282 in2 153.00 psi 153.00 psi 1.035 in 1.508 in Shear 8.41 k 0.00 k 0.00 k Job 08 -5777 5777 structural calcs (Rey 2).ecw:Calculation Iil Deflection 0.0000 in 0.0000 in 0.0000 in MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509 783.5075 www.meierinc.com Proposal No. Project: No. 08 -5777 Date 12/30/2008 By Hsu Ck. By Customer PNNI., Job Description Port Angeles, \VA (Rev 2) Check Piles to withstand truck load Case -1 (1) 16k axel, place one are directly on pile tr (I Oft:)" 100 ft P dl.pi1e (ri fl(2 1' 1 11.1�i1c (2 Pure) P 6.667 ton Case 13. (1) 16k axle, center tires over pile P l' r7 P2 1211 T (2 P..._...) 5.6•ton G irdcr 10' C; tsc. C 3S2 l ruck P3s2 15 5k (total axle load for 3S2 truck) 1 (l'252) (2) T 10) 1 3 11. �ilc 8 X 4) I :'xisting load with 3S2 truck is. 1'311.pilc P dl.pilc 10.981 ton 8.68 ton tributary area 10' 1: xisang Load is P dl.pilc: .i P111.pi1c 8.968 ton P 1' (dh t dbmt'�wd) d trio (2)(I1, 3) 2.301 ton btn2 Girder, typ i.Txisling Load is Pdl.pile P 7 901 ton 1 Girder 1 0' Page 6' 0 r-. pile, typ 1 of dam.' tires, typ MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com Proposal No. Project No. 08 -5777 Date 12/30/2008 13 Hsu Ck. 13y Customer PNNL Job Description Port Angeles. \V1\ (Rev 2) Check Piles to withstand RPM load Similar to existing load check, keep total load under 10 -ton (per client) Case Add RPM to L xtstmg case A Only one RPM aced be added because the stand /stand dim exceeds the c/c spacing of piles. tributary area Pdlrpm.pile tributary area 1' Girder, typ 10 -ft P Girder 10' 1 \\'p cic c base \V ballast.cgo) 1 972 ton pile, typ tiro Design OK fhe total new load exceeds the preferred 10 -ton allowable, 1)d1.pilc N1 1lile 1'dlrpm.pilc 10 94. ton) but is within the absolute maximum load of 15-tons. MEIER Enterprises, Inc. 8697 Gage Boulevard Kennewick, WA 99336 phone: 509.735.1589 fax: 509.783.5075 www.meierinc.com s Proposal No Project No. 08 -5777 Date 12/30/2008 By Hsu Ck. By Customer PNNJ.. .Job Description Port Angeles, WA (Rev 2) Case B Add to 1= xtst.tug Case CT with ehc 3S2'1'ruck tributary area 10' G1rdCr, typ h dl.pilc 2.301 ton 1'dl.rpm.pile 1 972 ton P 8.68 ton 6' T 1 1 tires, typ c pile, typ Page of fr Design OK The total new load exceeds the preferred 10 -ton allowable J 'dl.pilc 1'311.pile -t� 1 'dl.rpm.pile 12.953-ton) but is ,vtthin the absolute maximum load of 15 tons. 1 I 1 1 1 1 1 5 I 1 N wNB 1 j D 10 THIS DRAWING SET CONTAINS MATERIAL THAT IS FOR OFFICIAL USE ONLY. tOCA DRAWING CONTENTS COVER SNE NE PUN NLARG PUN PLAN ANo 8001 GOND SITE PUN NURG PUN ULE EP01 DlACaaP BLE /C EOUI (A80 E) (A E) LEGEND (000 E) FD USE (B (8 R) GWE e T(5) O000 U ERNAi ONAL gNA O N E ONA LEVA C 0 ERs LLAR LuR UN 0%. NO ND STYE w •DO L D AND fOCT MAX PORT ANGELES, WA UNITED STATES PORT OF ENTRY RADIATION PORTAL MONITOR PROJECT SAIC PVT INITIAL INSTALLATION POV AND CARGO RPM 100% DESIGN mAko IIIP O oovic P 0N LAS 0) C ONAI BIGI CO LE EA NAi ONAI R ■AAN Ua J w10 OT N 0 TON SOCLA OICAL OcAL EC ENTER SNA UPA IONAL SAFETY N ADP PER N000 OEi 0000 uFABR OOR PLACES RE R0 P08 LER 5 UWELUNC UP NN PANG P Owl LABOR T' BOR O ASC SOCIETY P0J ASO LE ST E55 PASS 5 SOCIETY WT U OUAR FO0T C RE OWR C P RICAN [Tv BEACO v LW. OR BAT LYNN LIEN C/C ELA e 0 RP 0 T P LEO ry RADA CAP B RAOP 5 SAE tt CAP ANAL s PILAR c. 1 N E HEAL C LEAK OF RRUWT 1 CE CO ACT RNA) SPC EWISORI CAR EE E S DR RP SO DOT (s) x45) 16 Sttl OS PUS NEAT 0011 VO PLAST D PR RICAL LIGN ET LC TRAF TOG OP rAP NAT AUB RPOR E L1S6 C LOGIC UWEV AC AC 0C R r C NDC L1 1 C C RCN L I 1 o 00 DC RU (0 OD RPA10N APERR:A RRONE CONSIRUC UNCLA IFIED PORT ANGELES, WA POV AND CARGO RPM COVER SHEET 1 1 c 8/27/0 I� 3007 °F NONE r WS7668 111611 STEEL ALL 5TEEL STALL BE 1 A.36 6 Al WELDS SHALL RE I/O 10 GENERAL NOTES (UNLESS 01NERw15E SPECIFIED) GENERAL I t ALL CONSTRUCT N 5HA1 EE E EED C 00 RNATONAL O101N CODE (1 C -IBC). NATIONAL DEC CAL C00E (NEP0 0), AND LOCAL OEOU0 *EATS. OESKN DRAWINGS AND TAIEU Of w R (SO'M) AND /0 C.C. SPELT-CATION ARO DAMON LOCATION Nur ExCEE BEDUIN 0 SHALL 11PRECEDENCE 010 (0 ALL Ex NL 05 PIONS ONS ABOVE AND BELOW GRADE AND O ENSIGNS RKR TO a WANING WORK E CEP OK PORT NGwEER MALL BE NOTOEO Of ANY O5CREPMIG (DO 0 SOLE DRAWINGS) W ERULS SHALL BE A5 PEE D OR (01u1 OuAL1UF 5 OVEO Br RA INSTALL ALL T WLS Si ACCORDANCE ACT rmo N .4. IONS A SURFACES SURFACES DAMAGED DAR NC 0858 COON SHALL BE R *RED EKSMG COND.. ARO ADAGE Su PACE F 5 (COLOR. SLOPE AND 10 VMS SHALL COUP TAI ATE DOT STANDARDS W 0 VANL K CONTROL DEVICES (u CD) STANDARDS. 0 TRACTOR SHALL P0OU0E A SET RE DRAWINGS SHDwIN ALL CHANGES MADE DURING CONSTRUCT CO TRACTOR SHALL OB ARO P ALL ERMI1 AND ALL AS ESCRIBEO VI DAPS N CO TRACT SHALL CONTACT AND COWDIHAT VATH PROVE MANAGE BEFORE TART OF CDYSTRUCTO 0ROJEC E (ER 0 MANAGER HALL BE NOME ANIF PANG THE °RATAN POR C P AND AL SHALL BEM RE5P0551 LITV F EXPENSES BRED AS 5 L OFF LURE 0 P ART OF E TOR 10 VERIFY ME SO 5 AN0 /0 VENfu4I.E 5 CORD 5 PRIOR 0 8 G WORK PION SHALL BEAR NO BOO SIBIUry R FA LU N THE PAR CONTRACTOR TO COORDINATE CTmTE TRACTOR'S MPLOYEE OR SUBCO TRACTORS ALL SALVAGEABLE EM EMOVE0 AND NO USE EWAN OPERTY THE OWNER AND SHALL BE TONED BV CONTRACTOR, U LESS 0 ED OTHERWISE CONTRACTOR SH(1 CO TACT SUB DC CARE OWNERS VERIFY LOCATIONS OF CNRES (1 DA05) PRIOR LNG. 0(08 5 008 AN HERE 50055Y SUBSTRUCTU ES 5 WITH NEW SUBSURFACE R NTS, CONTRACTOR SHALL TRENG CAREFULLY TO LOCATE ALL ACTNE APO 10 E UTURES AT THESE CROSSINGS t SHALL BE THE REASON Lay CONTRACTOR TO LOCATE A EXISTING UOLIBES WHETHE SHOWN E AND PRO EC THEM DAAAGE CONTRACTOR SHALL BEAM ALL ERSE REP OR REPLACEUEN IN CONJUNCTION WIT THEE ECUIION OFT WORK. ALL 0 ERIS AND TRASH SHALL BE 1JOVED SITE BY TRACT BY THEE 0 OF EACH Bug (55 DAY CO STRUCTON SHALL OT (STRICT A MAE -FOOT CLEAR ARD U ACC 5 TO •NV ER POWER OSTROU ION 1ACIL n 5 (POWER OLES PULL BO TRANSFORMERS, vA4LT5. MAPS. WAVES E ER5 APPURTENANCE N ETC) OR THE LOCATIO 0 NE HOOK- THE CO5570.605 00 A SNL NOT BE wiTHIN TEN FEET OU ANY POWER U 5 ENE OR N)41 OT THE ES ARE LOCATED ON i PRO coy. ALL COUP E ND wTERULS ROAD 0 EN CONTRACTORS E IN CONFUC ENE SPECMUnONS AND DRAWING DRAW SKULL TARE PRECEDENCE 0005 OF TOR 0 TRACTOR SHALL um,' AND PRO.apE NTERRUP POR FACIE TES 1 ALL TWES ON1RACTOR SHALL WIDE A TRAFFIC OR ULATKN PUN RIR APPROVAL Br POR EACH WORK AREA FOR EACH PHASE OK CONSTRUCTIO APPROVAL SHALL BE 001604E DAYS RIOR TO ENCE* Of MOT CONTROL PROCEDUR WELD ALL 1800(5 SHALL ELMO ODAL1FCAn0N5 AND FABRICATION FOR CARBON SITE SHALL 2002 PERPORY 1005 NSUAL E%AA4NAn0N OF ALL FINAL WELDS 0 2002 BON WAN ACCEPT CE CRIER* ER DON PART ALL STEEL N& SHALL BE 5 53. GRADE E ALL STANL STEE 1 BOLTS AND WASHERS SKULL BE SE E5 ALL NON E5S 5 EEL U15. BOLTS AN0 ASTERS SHALL GALVANI ABRKAIE ALL STRUCTURAL STEE FOR CLO FIT wint (RECUT HOL 0CCURAIEL AUG ED AND W11N TOLERANC GIVEN A5C 4ARUAL 0 STRUCION E FORCING 5 EE SHALL BE DEFORM LLET STEEL BAR CO u1NG GRADE 6 0 BARS 60 P08 BAR5SPEC FID A5 OOASTµ AS 0 LA R GE µBARS MALL BE C 15UDU5 AROUND CORNERS AN0 LAPP( E 57ERN TONAL 8 00E. AWS ALAS ALL uRFACE SHALL BE LANE AND PREPARE CT ACC RDANCE H ME A no AND DECORATING CONTRACTOR OP (PDU) ARCNIT URA TIRO AND WALL COVERING 4uGAL E000 WE1AL PONE COAT 163 ALKYD 0L ME (5 EEL URPA ONLY) F1 5 URETHANE AVM) GLOSS ENAUEL 0108: 5AT(Y YELLOW OUCH u D ANA ACES 004PLET0 DE 1 SIOU10N TRAM TRA *ARK SHALL CO PL WITH STATE 001 ALL TRAFFIC *ARKIN S SHALL BE REF TORIZE ME 100PLAS0 RAT REAL APPROVED BY STATE 001 XUVATTO BACKEILL NE E ARD DIME 0UV•T0N5 EFT OPEN o4ERN051 STALL BE PLATED 0110 STEE PLATES OF E A 0 HK 55 CAPABLE OF CARRYING TRAFFIC LOADS ANT1CPATED FOR OVEN LOCADO CONTRACTOR S RESPONSIBLE FO ALL TRAFFIC CONTROL AND SHALL 004011 001 NE REWNE4 NT5 Of ME WORK AREA MATTE 00510OL HANDBOOK. THESE ARE NI*UM REOUIREuENTS AND 1Ur BE •AGUE BY HE PORT AT T 501E ExP(N5E OF THE CONTRACTOR. CO TRACTO 5 RESPONSIBLE FOR COOR0NAT ALL RE40AAL w 5590 TO 0451RDO1 53(000(4EN15 AND WITHIN 1HE A00R0PRIAIE 5E0 DACE 80 SO 5 0 4AH A TRAFFIC AND 00100T SAFETY. TRENCH G 5 0 CONDUIT 1N5TALLA1ON, ARD BACK LNG SMALL ACCORDANCE WO TANOWD SPEC FICAT0N5 50 PUBLIC WORKS CO 00NN, LATEST ERROR. 100 306 OPEN (NCR S 00 SHALL E DONE IN ACCORDANCE 0110 ME EOV1A1 OF OCCU TONAL SAFETY AND TEAL1 ADM S1RA1ION (OSHA) AND LOCAL JURISDICTIONS. PR R 0 COUPE LING THE (000000100 0 TRENC*E5 FEE DEPTH OR CREATE WHICH PERSON 'MU BE REDO RED E5CEND CONTRACTOR 5KRL A /1 AND AY OR ANY EXCAVAIONRER PERMITS. EMT ELL MATERIAL FOR USE UNDER SLABS SHALL E CLEAN. AN5NE, R AND EE OF G.ARK WAITER OR OTHER OELETERIO 5 UBSTUN0E5 0TERLA SHALL 0 0 0 0*INAR1 OF ONE 51 E NO SHALL 004E SAND EOINALE ALOE OF 01 1 NAN NOR GREAT THAN 60 0 AST 02 95 10 SHALL P 748 I/2 51EVE. BACKFILL (C001 0) OF O ASPHALT NCHES N 5 AXONS TALL R 0 ROUGH N NERCO 5 HALL LIED WITH BE SAw 5505 5HR qR 0 E TIM. ALL THE BAC FILL 0VED AREAS SHALL APOUN 510N LARGE THAN 6' ALLOWED IRE BACK IL ERAL. PACT BACKFRL UAL. Uf15 1 5 DENOTY. T0(0 ME (10(50.) 5EPARA OUR NG x000 AND PLACE LA (XIS N OR (PLACE LAN SUPT. Tu 0 *A E PRO E PUCE EPA TO AT E TING RIGAIION AND OTENARC ALL BAC 0 ETE 5 HALT ALL IC AROU 0 ONWI APAC1 0 BAC 110. HALL THE (WA 5 C 0 E E ASPNHULR A BACKTILL 0 BAS RAM SHALL VERIFY THAT THE W*E LL E001NE PACT ANAGE 0 NEW WORK 5 5005ED OP (TER BE u1HA1 TRACT SHALL 0.0 LOCAL OU T5 PA EUT0 SLAB BE OP SHALL E C CO PACT Mx 4 ruing AREAS. (04700 P0500 B G NUTT Fool' 0 MAXI. DRY D 5111 PACipN. THE 100151008 COMER OF ME THE 50ECF 0 4PAC110N MAr B 001 B 5 0[0 PACT SHALL DRY TERMINAL) AND WIT R TH 5111 URIC CTRKAL TALUD0N SH0L BE ACCORDANCE ATONAL ELECTRICAL E AND PPLE.ENTE0 BY NE L AUTHORITY HANG RISOICT10N TALLATION SHALL BE C EC ODE LUNGE AND REPO EOUIR SHALL CONTRACT SE ALL C M'D PULL STALL NUR K A 0 LAB MA HAS ERMAN BLACK LETTER 1 BAC NO CABLE 6 N (1(01 E 5.u. 5HA BE CONSIS NT MN NDUIT SCH AND R. E ELECTRICAL EuATK MARK CS R *15 0 AND TALL TYPEWRIT PANE 010E0 NEW P EN S D AND /0 AN C ROM AND TALL AN TRONIULL ERA0 OR GRAVED ADT SIVE LAB OEN IfIUigN NEW PANE UB -PANE AND /0 AS E 0 PRO,. PARATE 40450 50 STAL DUCT FOR (AC C RP ALL RACAL GROUNDING L (AND LOCAL GROV EOUIR MEATS) HATE UB LOCATED SE *RATE E UTRAL SHALL 0 BE BOND 1 E NOUN BUS. N L BREAKERS. FUSES AND E ECTRIC L 00 NT STALL AN lER RAIN NO L THAN ME TAW RC W C HEY BE UW BE E ALL RUES AND 0 ALL NEW AND ALL AR ERWRITERS UBE (UL) AND SHALL BE LLEO BANN FOR DESIGNED D APPROVED ALL NDUIT5 AND W WIN MUU BER OF B N05 A SU MAN N N AS TO CONE 0 1 S RUCR 051 BS 4. NA O 0 ALL FINAL TE 91.0. MIp. SHALL MADE E0 TIE C NTRA:T CO NE SHALL 8 MADE 80 PACT L/C DAS VENDOR Su ERV5100. T CONTRACT R SHALL SEAL i10AL 0 RN TEM ERATURE CHANGE BY SEALIN E REVEAL A F AREAS CO AUTDN THE ENT SYST SHALL TES ED FOR C GROU D INSULATION RE R N E AN nvEEN CO 0UC10R5 D 0 00005 FURNISH ANO TALL ALL CON GAITS, IRE B SPIT HE (WIT LAUDS). TALL SUNK DEVICES. ARO PANE BOARDS 60 0 PETE AND 0 (RAT 5,510.1 RATERS. LASED ALL CONN CTS, BREAKERS, E5, CONTACTORS. SW ES -BORES ONDUI C 0 0 TA RE THAT ARE 01 UPPUEO EDUWIE REWIRED PARE BY ME CONTRACT R 01 EFIw15 ED ALL SW AND CU RUK CD `ORS OR OLLIN ELECTRICAL CHAR° UGH¶ 0 M0 0 ORS iU ((N OVER 0 R) OR E OF LOCKED OPEN POSITION. E LE` CAL D IN GRAM* AND DO 5M0 ALL OFFSETS. E 5 CT 0 X• 0 SION 111 ,40 EOU 0 UT EL 0 BONS E C C SHALL DE ANE ACTUAL MATER AND AR WARE REQUIRE AND VERIFY ALL MENSRIN BY (10 INSPECT OFD RIAL AND CONCR NUS CONDUIT SHALL (0 LOCAL CO (ROM 5H S 0 CE UNLESS 0 ERWSE LECDRKAL 801111.5 0 A 0 D DEVICES INST LLED OUTDOORS SKULL BE E wEANE PROOF CO 510 E STATT NLE55 Siff NE E 0 TRACT R SHALL RO10 AND INSTALL PULL WEAL PPOO OSU UNC BOXES AND UL0S, A5 SSW, FACT INST LUTON MD CODE (EVEN NOT SHOW 5) POPE w FOR ALL AND DAMP LOCATIONS USE `MT THAN INSUUT OR ALL WET LOCATION USE TIRE w1N HWN INSOLAT NAL CABLING 0 BOX AND ORS (INDOOR OUTDOOR) O CGN1 BOX AND RSP SHALL CONDUCT (A 1405 SHIELD 0 OUTDOOR ATE() COMUUN1001 CAB WIN SHE VTR DI BURL. JACK RE ER MB ...TON P DAL TOR UST DALU1 11A14µ (MOON WPC5 1) ELOPED Z OTE THAT CONTRACT SHALL WIT E5 RC WANU.. UR. R 230' USE Aw0 it 0 580 USE AWG TRACT VERIFY AL LENGTHS E EED. FED NG MSDALLE REOU 1NSTALLAT AND TES CO G RD CABLE. 2 STRUN0 R R T BU SARA ALL FINAL AN NS ALL MADE E NTRACi CABLE (CATE0000 6) CONTRAGTOR vERiu FNAL R GM5 r LI 0ERMRUi ALL 6 CABLE WIT CONK OR, NO (LOOIN AM OWED E CO TRAM SHALL PROP TERN ALL E CABLES WITH 17105 CONN 005 ARO 5 ES E CABLES woo OMNISCANNER 2 CABLE TESTS (OR APMGVED UN NO. Ru E OJNSCANN EGO 0 TRADEMARK OF ETWOR 5 D MUG (FIBER OP1C CABLE) CABLE SHALL 8E OWDOOR RATED 400E C AND AFTER 0051ALLA000 OF 0BEO OPT C C LE. BEND AY RA/6U RE5 L 55 1 N AV E 0 510E ABLE OMUETER E Br CARL WAN FACTO E 110N Wu. Rw 5 T0P UNLESS NOTED E15 U ERWINATEO BE ROC TURPS WILL B 0 ED 100E CO ON 5P00L5 OR LOOPED WITH EN NU5 1 THAN 1 U15 CABLE 04IC1ER ON wILL PROn0E PNNL TAT TA DOCK. LT5 000U TON F0 EACH FIBER RUN BCE. AND 5 R N ALL C FIBER 0 USED SCULL 10 T AND 100E AND CONN TORE SHALL E ADDRESSED RAC10R SHALL 4100,1E A5 EN05 M5 OPn CARL IR INCL E PARE EACH P PANE`) E AND HAIL BY AN AO, LOGIE TESTER 400E AND uo0E 5050 u5 (OR AP0R00(0 Ou L T) NEC NE S SHALL EXHIBI 5BB LOSS PER CO TON DOT 300001 AND 550¶01, AS 4EA5U PER 1 TALL C EACH C E TYPE NOUIi UL 0) (P NI CONDUIT AS SROWV E ORA,A,IN UnONS) SHALL RUN U COTO 1 ARE 5H000 DRAWN 0 MRAL SHALL CONDUIT 26 *PLUNC TO BASE CTUAL VAR 5 C 0 50LVEN 004.0 SCHEDU1 PVC FOR ALL U ER080,40 CO D0T5. USE M FOR ALL WET 8TER 0014E GRADE RACEWAYS USE POLY E 001E0 0 ALL TRAR5 no. FRO H TALL MICA USE POL04E COAT GALVANZ HOW ALL 01ERI ABOVE GRACE RACEWAYS R NOPE AND ER 12. USE E 1 0 ALL N1ER0R RACEWAYS. 2 CO SION TYR FIRING SHALL BE USE WITH W5E x005( PEAT (OUTDOORS). (R0144DE PULL STR 05 LAZE N ALL E PTY CONDUITS, CA AND TAME ER1IOM1 ALL PTY NWIT5 ALL E10T0 CONDUIT STUB UPS 50011. E%1EN ABOVE FIN 5H WIT LOCATED 0 ANY REA VEH ULAN TRAP MUST PLACE OF (00 LOCAL C00E) BEL THE FACE ALL ERG4O* NOW *050 BE PLACE LOW CONDO TALL ROUTED AROV5 AND BENEATH ANON REBUT CAGE 0UNU1 1.15 AS URED AFTERS LEIS SHALL BE US 0 ALL CONDUIT PEN T00T ME RSP AND CONTROL 000 BATTERY Box D AL1 UNCnO Box ONCR E A L 0 ETC SHALL CONS OF PORRAN E E 0 AST C 5 E RA HAVE A ,500 051 OMINAL 04 SSNE GT ELATE SMALL D ASN C33 03 C88, CI 31 0299 ATER CE ENT 00 TR D CONTEN OF CUSS ELY H C FORW AST, 61 AND AST *A%M SLU CAPER PUS¶ USE AGG EGA WATER SHALL FORD ASD4 AND ALL E FRO APPROVE SOURCE 0 ENSURE N 0R* 0 0411 A GRADING. LNER u015TOR CONTENT VARIATIONS WILL NO CREASE D (MN IREAS N FORM CONC EYE. INC. PLACIN FF S C AND RING SHALL N RDARCE WIT 30 0 E TARDAO SPEC FIUi FOR PUB WOR 0 STRUCT RE 5165 BARS SHALL OvERLAO BRA O FRS REBAR SHALL 3 CLEAR TYPICAL AG*N ALL GRAD AND 1/2 LEAR 14PICAL PIKER FOR* D A R 5E WHERE DOWEL VEIL LLY HONZ ALL 0NC0E15 (BAR 5 A (PDX ED Ex 05CRETE Orr -1S0 *50(550, w0E8E CLANG 0 UPS LONG AN En 000 SON 10151 EDUCE E PA 50N JOINT MAT RAL AND SE C REIE EBuR 000(1 APP ADH 510E L ON THE NON MANS.) 051 SDES N0u1NA4 TOR Z0NIAL CONCRETE SU PACE %POSED 0EA1 SHALL SLOPED R DRAINAGE 3 ALL EXPOSE E1E EDGES LL BE CHAAF(RED 3/4 13.8 GRINDING, CH D 5ACK1 STALL BE DONE TO ACHIEVE 0 SMOOTH FACE NAL R N ALL HORIZO CAL R GENRT LOPE CRE1 URFACE SHALL NAYS (A0 1AR00805) ASPHALT CRE1 ANNG 000AC SHALL F M 0 T1PE -800 AND D B 8000 5 CIFCA1105 PUBLIC WORK CONSIRUCnON, UT EDITION, E 03 AND 6 FACE 005E 0 HAVE I/2 AOC EGNE 5uAC 0 vNG SHAALL FOR* STANDARD 50E FIUnONS PUB0C 0551RUCi000 LAT 1 EDITION. (0005 302 5 005HED AGGREGAI BASE *0TERNL SHALL C0NF0 HOARD ELOCA1ION5 FOR UBLK WORKS CONSTRUCTION. LAt TON, 0 22 UBGRAOE RE ARATION AND PUCEUE 17 BASE AER0L SMALL NGULO SPECIFICATIONS FOR PUBLIC WORKS CONS U 105, UT EC0ON 301, COORDINATE WITH PORI 1HORITY FOR ASPH0T COURSE COORDINATE 1 PORT THORr1Y FOR BAS COURSE AND BPE 1041 AL CRETE 5Aw U15 STALL BE 51PE 5,000 PST. NON- E AST CI 0 GOP 0800 (LEAN CONCR E) STALL LOW- GM BACK L S5 Or 2 SAC Of TYPE DRIUND PE 00 FLO0* SAID 00EOU0 E WATER ACHIEVE AN TO OF 20 B0 WEIGHT Of PLY ASH. TRAIN C0441 *155 HARDWARE 61 ANCHOR BOLTS SHALL A5T GRAD ANCHOR BOLT 50011 BE SBA DH ALL 010ER 1301 SHALL E 930 OR SAE GRADE 5. WITH 651* A56 GRADE CU5 Ex 075 ANO.AST* 36 PUT R WAR PUN WASINERS 00(005140 10VCN0 AND ALL AS50C0 RCN. (0015 (E RvAS 0). T D 14 vERIPY L 0 SANS THE 5000 (INC N4ED T 70 ILL OR HOP DRILL ALL SD FACE 0 0 T E0 CONTRAC ALL PRONG INSTAL ALL 0E0 E AND NATER*L 5 ECIFICALL IDE01106 A GEE. C TRACT SHALL PRO.RD N TALL ALL ELLA/4EOS HARD (OUR TAKETE ROA TALATON (EVEN OWN THE °RATAN.). AL T gEOUIR FULL 1301 READ NUDE ARATE RIFT RING 0 E ON ALL RP4 TAROS SHALL BOND GROUNDS 0 OPPE COAT STEE ROUNDING ROO OR PLATE (LOCAL CODES SHALL POLY). ALL NEW POWER PANE SHALL BE *PIED NT RTEGRAT AGE SUPPRES E FED PER 283 AND ULI 49 SURGE SUPPRESS DEVICES SHALL BE DIVIDED DIRECTLY AOCE BOAR TERM U TERMINATIONS Or EACH ETHERNET T CA JA CABLE CONTRACTOR C0u00NEN R. *NCH DOWN LOCK TOOL LAND WIRE SOD PO BE (CURE Y u0 T AND E DOWN CABLES D 0 M REVEAL T38 OVEUENT ROVD ARE ERENTLY HARD AGAINST AFFEC HT NO LO TT LIT PROT CTO T N /ATTRAC (0 ■P REWIRE0040( D 0E DRAWNC BASED ON HORIZONTAL L0.OS AS FOLLOWS 40150 PADS OAS ON TOO *P BASIC IN SPEED win* PORIARC FACT OF .00 AND 0POSU 50159C LOAD ALL CONDUCT 54 C 45 BAS 0 wG ON 35A YARMU URREN ORAw AT (2 VAC 00 AND SHALL BE S2E0 0 PREVENT VOLTAGE ORO NOT 0 ED FOR FEEDER ITS AN0 oR BRANC C41T5. TAL NONE ALL ULVARIZED ITEMS SHALL BE NOT DIPPED GALVANIZED OUNCE PE SOVARE FOOT ARE f BRIGATION. ALL WELDED AREAS AND ALL AREAS WHE GALVAN4160 IZE0 URFACE HAS BROKEN O ANY REASON. 5014.1 WITH 'ULVALO0' APP DIVED VAL. APPLIE ACC uANUFACTURER SP CATIO ALL 0PO5E0 STEEL BE GALVARZED RATE Au 5 OKAYED TRAFFIC BARR 0 -RAILS. CONCRETE TRAFFIC BARRI SHALL EET AND BE STALLED PER STATE DOT SP C 0 50 K ALL -RAILS HALL BE DOVE ry ED HOLD POINTS ro4 N5PECTON ARD APPROVAL RIOR CONY DIEN OF %UVAIION (40 ExCAV DON OR TRENCHING 5 RE000E0) EOANDA)0 E%CAV nut AND A55EMBL5 N5PCCTTENN PRIOR SCHEDULIN CONCRE (IF FOUNDABON ODIF0AT0N5 ARE RE0010 0) CONCRETE SIRE GM TEST SPELT. MGR TO SETTING U RPM TAROS (IP CONC E1E 5 5001000) E %UV TON P 110NN PRIOR LUNG TRENCH (0 TRENCH. 5 U E0) OvAL FOR CONCRETE 10E AND CORD TO COMMENCE Y 1 VASE ALL 0IR AND CABLE INSPECTED O MUTT MUTT PRW 0 CONTRACT 50011 E' TRACTOR INSTALLATION SC SORE' T SORT FOR APPROVAL,. ALL WIRE EL CABLE PULLED B, (5 CONTRACTORS WILL BE DATED E1 CABLE E CuN (SEE 0 03 AND 1). ET T E (C0 OPPER AND Eg0 ILL W BE E TESTED AND ERfORU C.A. INSPECTION 0R 0 RELEASING WSDALLE SPECIAL NSPECn 22 1 ONCR(TE SOS TALL ANCHORS SOUS SPECIAL IN50ECTION 00 STEEL C0N51R0C1ION TER R ICAT INSTRUCT. 00CULI AuxurAC1 COnn[0 IALL TES LI, FILL P.`40 CONSTRUCT. 00C YTS t 4t0 T'CAT 5 *Gnu. Or trtFoNG 5W5AE nt 0 m [L oR SN APPLICABLE KW A H0. moo T a AS CA ABS 011 BC 17.3 NONE ES SEE TABLE NONE NONE UNCLA SSIFIED "Nele* 5111 .>a TNAr PORT ANGELES, WA POV AND CARGO RPM GENERAL NOTES 0/21/05 3001 L NONE WS7668 Ii T I i I I i I 2 1 Q —,r SITE PLAN 0 i0 20 0 6 SULE FEE A J UNCLASSIFIED PORT ANGELES, WA POV AND CARGO RPM SITE PLAN 2/27/091=1"` wog sw»H 1 I 1 WS7668 �3'I1 1 I I I I I I I I I I I N z o ANN 1 O ENLARGED SITE PLAN 0 0 5 0 cCAIE EEE No, UNCLA?sIF ED 11 01e1. 5 I 1 1 1 1 1 I PORT ANGELES, WA POV AND CARGO RPM ENLARGED SITE PLAN 2 /27/09 I tr 3007 SNO0N T I 1 -r-1` WS7668 T 3 N CANOF, PPOR OPY 1 4,1 P (9 PIER PILING PLAN o KA,E 10 20 rE 7 uTICLA PORT ANGELES, WA POV AND CARGO RPM PIER PILING PLAN 2/27/09 1,7," 3007 .4 SKNO1 WS7668 �M JA/B DOLT BAR STOP WAIT FOR OFFICER S SIGNAL SLOW DOWN MAXIMUM SPEED 5 MPH GRADE RPM STOP SIGN DETAIL 0 J SGLE FEE O SIGN MOUNTING DETAIL 0 1 3 SCALE FEE O PAINTED STOP LINE DETAIL 0 B SCALE 3/ GL 1 /2 FE O CARGO BOLLARD DETAIL 0 2 fi SCALE DE s E 8) ow" A2 BEAM 3/4 GAL J CAL DDU AS O POV BOLLARD DETAIL 0 2 S /2 SCALE FEE V2 PLAT O BOLLARD MOUNTING PLAN 0 2 J SCALE FE TAO FLAT NOTFS 1) 80LUR PuT AFT Pui oAS LDCA LLAR PUT MUST NAV PuN VG ANAL NAL or G LOT R L BASE PUT 0 READ NOT 0 0 C T BEAM I/ O LEAR PUT EDGE OLUR EL T PUT 0 uN Pui LEAR SAS PUT PPRDVE 'ATP UNCLASSIFIED 2e'�L sTi7 .r E: PORT ANGELES, WA POV AND CARGO RPM SECTIONS AND DETAILS 2/27/0 1= 3007 "A HO. WS 668 6 11 61 1 1 2 1 RPM CRITICAL DIMS LAN 011.4 9 B my O Dlu (E) PEN 3/0 5/8 1/A I/O BUu C/C 3/A 52L T. DDU LE wASNER As ALLA BUM F BDL 52LVANIZ SP L NOL TRAM BOIL DS DO PUT EDGE 410 /8 LEN NOTE 0 LOCA TONS bN LEVn BwE 1/2 88 RPM BASE PLATE DETAIL 0 6. 2 5521.E FEE (1 I/2') PLATE /PUT 1/2 SPOALT LAID FLAT PUT AS E BUu Two /STAND I EAST 00000 LUTON DO NOT ESS OTTO LOCK (5 CARGO RPM STAND ELEVATION 0 1 2 6' SCALE FEET 71 F L o 5) 000 O C 0 WER U FLE STEEL BALL BLOCK Try O DETAIL S' z� SCALE 1550 Puc 1' 4 5/8 5BY 00CK 99 PUC 0 o v 000 NI. 55 STEEL FOR 4OUN OPT1526 SENSORS, E /A Oo RPM STAND ELEVATION 0' 2' 1/2 SVLE FEE wo CASON (2 LOS. 2 PER R iw0 y) 5/8 500 EYE 2 TOOK (4 99 22 0 S) NE PI O01 ET S AND PLUG ET SCREW AFT f0UN0Aib PLATE Rw10 0 Puc STRAP ETK55 EE EACH ECi E TAND STAND NTROL y) CO B PASS E BAT BO CA ARE SHOW TAL L T MAY SE 520 041,007 KAN B STALL, 1/A I/O BATTER' H Les I A B iwo /srw0/ C ouc o Bar /B0L! R Tw0 IYP W/ RPM STAND ANCHOR BOLT /ROD ALIGNMENT Of i0 SCALE NOTES; STEEL BALLAST DETAIL i RP TAN° >I�i ou (o 0N5 TABUUT SCALF iEE 88 51EE 020 TANG STEEL BASF PUT Oi RPM STAND BOLT DETAIL 0 3 S T O SECTION 0 1 2 3 6 SCLL® 5 FLAT wA50 RUCs 8E80E0 STUD wD WASH R MAX PROTRUy0 (4 P�) 1/2 FLAT WASH (2 Puc 5) 0 6 SCALE FEE O SECTION 0 I 2 EC/LE RICHES CAP T/L TORO CAP DIRECT TENSION INDICATORS (DTI) TO CONNECT UPPER AND LOWER STANDS. 0) UNCLASSIFIED dyi ejei stn` PORT ANGELES, WA POV AND CARGO RPM RPM STAND DETAILS I 1 i 1 1 1 1 1 2/22/0 1111 3002 ''y NOON WS7668 hl 1 I I I 1 1 1 8 2 1 1 1 C82 SPAN BEAMS REL 0 51 r BAS PLAT READ D5 DO 00 I/O 1EAR 0 PLAT EDGE P R PLATE/PLAT U0 TUT E ROL (TR.LT T.) ON REI.00ATABLE P R1STAI]AT NS. DO 01 USE L8 ODTO CONNECTIONS BECAUS T 5 NOT ACCESS BLE RUN L UID LE THE JUNCTION B0 THE BOTTOM CONNECTION WITH TON LEVA ABOVE ONCR LOCI (SE ELEC RCN. DRAWN S) 0 POV RPM STAND ELEVATION 0 E 2' 2 6 T/2 5 0 RPM BASE PLATE DETAIL 0 L 2 6E /2 POV TANG /STAND CONTROL (2 LOS. U TYP E PM) 1 DETAIL SCAL E !NCR BATTERY 0 (1 LBS. w oN �oF .Lent O RPM STAND ELEVATION SCALE 51R0 7000 T EL OAL ENSORS. 00010 jr. STEEL STEEL OUSING AND DETEC CABRNET (2200 LBS. RPM STAND 2 Y) 1 0 I.) COH1 AND BATTERY PASSEN SIDE ONL CONT6 O 0 BATTER BO LOCATIONS ARE MOWN OR E (RAE E'ER E WSTALUn 5 LMT T SEPARATE CruR TO WITH 5T SPEC C C ME T IL I E E E SA ALLAnON NUAL. LATES REVSION FOR CONTROL BATTERY 0 WALLA, AEA 1 0050 (2 PLAC 5) REAOED STUD min ANO WAS MERS JIT. 09 22 LA PUG 5) 5/8 SHOLA. or( ERNE AND PL G PUCE T/L O SECTION 3 SCALE GAP DIRECT TENSION INDICATORS (DTI) TO CONNECT UPPER AND LOWER STANDS. 0 (1 D) SCALE O RPM STAND BOLT DETAIL 0 SCALE 6 2 PEE /2 (/2 1/1 BAR BASE PLA O SECTION 0 2 3 SCALE NCH ovE oR cousTRUCTwx UNCLASSIFIED 5111 Lar MN PORT ANGELES, WA POV AND CARGO RPM RPM STAND DETAILS 2/21/0 I :Z 3001 ,MM MOWN WS 7668 8 $1 6i 1 0 ELEVATION 0 1 1 4 6 1/2 FEET ROOF LOOR BASE E J I (RAVEN 7) 0 ELEVATION 0 ELEVATION 0 1 2 4 6 0 1 2 6 /2 IT■M■■=■=a 1/2 E!!■M■ SCALE FEET SCALE FEET 0 INTERIOR ELEVATION 1 0 ELEVATION 0 1 2 1 6 1/2 0 e5■T! SCALE FEET OF, (Tip ANCHOR BOLT SECTION 0 6 I 1 /2 2 SCALE FEE 1/1 2094 LAIO FLAT VANIZ 0 CBP BOOTH ASSEMBLY SCALE 2 4 FEET /2 (6) MAN fA CBP BOOTH ANCHOR PLAN E 4. FEET 300 61 616 627 630 63 63 684 J 110N OR NTER/00 ER/FAx BOO SSEMBL H KANOED DRAwER PLE CABINET CAEON *0640 REDESTAL (806/808/FILE) WALL CLOCK W E BASKE BUC POLYETH GALL lAUL NE LE 0 E (2 COOS (N NOwN) CHAJR DESK (60 L 2 2 0 29 1/2 m) FOU PMENT CABINET 25 x 30' x 43 5 xa .so NEW x ACEWA H BARRER ES BOOT 577 ION AND ENE, INVENTORr, LAYOU AND PROVE OR CONSTRUCTION UNCLASSIFIED PORT ANGELES, WA POV AND CARGO RPM BOOTH DETAILS 2/27/091:r 3007 Tir WS7668 1 1 1 1 SHOWN 11 61 2 N NDTF` I) co now. v x taro 0 1 1s s 8001 AND CANOPY ENLARGED CONDUIT PLAN 0 10 n SGIE FEE 0/w DING OVE OR CRSTRDC UNCLA PORT ANGELES, WA POV AND CARGO RPM ENLARGED CONDUIT PLAN 2/07/091 .)ool S0OVM fir WS7668 i 1I16j T 1 1 120/2•0,. 1_PrS -EXISTING- UUR BOOTH) i I `NPER ,N SuRE.EE� PANEL A n EPS /JD D (SO L CNE -L N E )R DORB w RE -D I NEC( TACT[ I DEDICATED TALL L- M IS 25 JS J) 53 S00 32 •2 20 20 50C2 Swarcmw WC CARCO NV IMI_ s q) ESY AuPS PC.N urn SEE ROUNDI6 0ETU M CBP BOOTH ONE -LINE DIAGRAM 2(0) u0 EO COP BOOT NO A(C5) VIN BONDING CAPER P NEC 250 8 (9 TABLE SO 6) CLAD 0 GROUNDING DETAIL 1 Et WE 20 /30* ECE TACLE DEDICATED EEE TACLE MVP MvAC UK 2 MY EN Nor SCul ror To 5C4•2 NO A(CP) HOUSING PER J(C) (S ZE a TABL 6) RvER CARGO /BUS RPM CONDUIT LANE 1 ROUTING FOR BB /CB LOCATED ON STAND SCALE NONE NOTES I CO TON PARE ST-UL EUv ASPMAL LfLR PAss O HMAC TRENCH DETAIL 0 6 1 SCALE FEE LOGIS B SE xUV N D 2C AV xV DNS C00RDINAt �tt EOU E Pass s ALL PUN ND LAN B/8 POV RPM CONDUIT LANES 2 AND 3 ROUTING FOR BB /CB LOCATED ON STAND RAE) 09015 SMALL E EUA BY DUI LEAD U LOT ON N ouch TYP UNCLA p OR SIFI DDNS TRUOED b 1N 5)) mw..w...e.. •a TUxn PORT ANGELES, WA NOT POV AND CARGO RPM PANEL SCHEDULE A 2/27/00 }00) SNOM'N I I I 1 1 1 f WS 7668 1221161 1 CB LOCKABLE LOU CABINET I i I I 1' I i I i EX CBP ILER U NOTES, ALL CAB LIES) 000 00011/0 E FENCE ERVAS ULF TRACT um. 5/0 /c) 7. i L i ROB O I E5 BOOT 1;1 Li L— NSPECTION CANOPY _0(.7 i Po5 <4 i 0/0 CONT OL BOX 2 1 CARGO/BUS RPM LANE 1 MOUNTED ON DRIVER SIDE I L_. MU 0 ED ON ASS SIDE 1 I I _J PASS WIRING LEGEND PACAT POV RPM LANE 2 POV RPM LANE 3 KKR RGOIMRNENTS FOR HANDLINO F0110 MATERIAL ar1Er100 OCMOIr air° rgt1 14 eCtL 0 .01. 1.0 BON L. MOUNTED N y stof I T egx 07203 J FOR' eFrma UTE ONLY PORT ANGELES, WA POV AND CARGO RPM WIRING SCHEMATIC 2/27/09 1,7, 3007 NONE ws7668 3 vPS 0 MANUAL SHALL UBE 01508 ENABL CLOCK POS TWN iC w. a IC oN v1Ew_ G ttP SCSI BAT SCSI SySi (S /W R) Lwr 1) Lwr 8) g ,0 3 O 0 0 2 NEUTRAL LAN BEAL 9 HOi OvE fOR CONSTRUC UN CLASSIFIED sTn ;1.-TN PORT ANGELES, WA POV AND CARGO RPM TLC DIAGRAM 2/27/09 ic7r 3097 r«r NONE WS7668 r4 16 1 CABLE SCHEDULE 10 LENGTH PROM To CABLE TYPE L.) REMARK CATIONS D mart Beet C BOOT PIN CONTROL 202 LANE 1 ANNUNCIATOR (10TERNAL) (I) A PR 50121.0013. DBR. 22 AWG 130 ALPHA 1 35377 NN2 RPM CONTROL 802 UNE 2 ANNUNCIATOR (INTERNAL) (1) 1 PR SHIELDED. DBR, 22 ANAL 01.I00PIC WIRE 31827 ALPHA 5 35374 ANNS PM CONTROL BOX 4NE 3 ANNUNCIATOR (INTERNAL) (1) PR SHIELDED. DBR. 22 ANC 110 ALPHA 5 35375 .01 Pm CONTROL BOX UNE 1 ANNUNCIATOR (EXTERNAL) (I) A PR SHIELDED. DBR. 22 AWG 100 AVH 5 35376 20 PPM CONTROL BOX UNE 2 IATOR (EXTERNAL) (I) PR SHIELDED, 020, 22 AWG C LAN AVH 5 35376 2203 RPM CONTROL B02 LANE 3 ANN NC1ATOR (EXTERNAL) (I) A PR SHIELDED. ORR. 22 000 40 ALPHA 5 35376 NN3. TLC2. TLU3 AN. OLYMPIC WIRE 1172 Fl OLEIC CANOPY C C OWN LAN P09000 CO1 TELCO DEWRC AT EXISTING CRP BOOTH N. BOOTH GTE It P EL (PP) POTS ROUT 0005 RPM LANE 3 ORIVCR SIDE CISCO SWITCH AT E215TIND CRP BOOTH NEW 8OO7H 6 PANEL (PP) (1) CAT6 30 50075 0111.11 PIIR 001 NEW 000TH CATS OATC0 PANEL (PP) NEW 000TH- CRP WORKSTATION (I) GT6 10 20 11011TE UNDER PIER 0010 RPM UNE 2 PASSENGER SIDE RPM LANE 2 DRIVER SLOE 07108 2 DET01 BW CONTROL BOX 1.010 1 1.55[00(5 BIDS LOWER REP (I) 4 PR 101(12(0, 065, 21 *02 BELDEN R •1111.1 ALPHA 35184 0[703 R. CONTROL BOX LANE 1 DRIVER 5102 LOWER 25P (1) 4 PR SHIELDED, DBR. 22 AW0 CORNING ALPHA 35484 CORNING PASSENGER 510E LOWER RSP PASSENGER SIDE UPPER RSP (1) A PR SHIELDED. DBR. 22 AWG CO ALPHA 35484 DET04 DRIVER SID[ LOWER R5? DRIVER 510E UPPER RSP (1) 4 PR SHIELDED. DBR. 22 AWG ALPHA 35481 00105 101 CONTROL 802 LANE 2 PASSENGER SIDE RSP (1) 4 PR SHIELDED. 020, 22 AWO ALPHA 35484 DET00 RPM CONTROL B02 LANE 2 DRIVER 510E RIP (1) PR SHIELDED. DBR. 12 AWO 2 ALPHA 35484 DE107 RPM CONTROL BOX LANE 3 PASSENGER 510E RSP (I) PR 5HICWED, DBR. 22 WC PI7 ALPHA 35464 0[706 201 CONTROL BOX UNE 3 DRIVER 510E RSP (1) PO SHIELDED. DBR. 22 AWC CA.. COLUMN 1000 2 DRIVER 510E ALPHA 35464 2 20 0012 ROUTE UNDER CANOPY PC01 CANOPY COL* N UNE 2 DRIVER 510E CANOPY COLUMN LANE 3 PASSENGER 510E PI I. P12. P21 IM CONTROL BOX LANE 1 CISCO ETHERNET SWITCH (BOOTH) (1) CATS 150 CANOPY COLUMN UNE 3 PA55ENGER 510E RP002 RPY CONTROL BOX LANE 2 CISCO ETHERNET SWITCH (BOOTH) (1) CATS 0 PCO5 RPAS RPM CONTROL BOX UNE 3 CISCO ETHERNET SW TC (BOOTH) (1) CATS 110 ROUTE UNDER PIER PC09 SOH 1 RPM BATTERY BOX LANE 1 RIM CONTROL BOX LANE 1 6 CONDUCTOR FUT CABLE 0 2 SOH 2 RPM BATTERY BOX UNE 2 RPM CONTROL BOX LANE 2 6 CONDUCTOR PLAT CABLE I. SPARE 500 3 RPM BATTERY BOX LANE 3 RPM CONTROL BOX 4NE 1 6 CONDUCTOR FLAT CABLE ER GC01 RP4 10X0 1 PA55ENGER SIDE TCL1 CAT 6 PATCH PANEL CBP 50010 PHO0C POTS 10 CCU TEU CAT 6 PATCH PANEL CRP BOOTH FAY POTS 10 ROUTE UNDER NCR/CANOPY 6003 RPM UNE 2 DRIVER S1DE RPM UNE 2 PASSENGER 5100 003 2 20 1101 RP4 CONTROL BOX LANE 1 TLC (10) 5 WC SHIELDED. DBR 150 2 T.2 RPM CONTROL BOX LANE 2 TLC (10) 15 A. SHIELDED. OBIS 0 005 7163 RIM CONTROL BOX LANE 3 TLC (10) 15 ANC SHIELDED. DBR 0 0 DISCON 007 1104 CISCO ET ER ET S ITCH (BOOTH) TLC (1) GT6 10 MAIN DISCONNECT GROUNDING RODS 007. 002 2 100 POWER POI EXISTING TRANSFORMER NEW METER AT POLE (3) 3/0 AWO RIO 102 NEW 01CB AT POLE MAIN DISCONNECT (3) 3/0 *30 30 703 N DISCONNECT 000TH POWER PANEL A (3) 3/0 AMC. 6 AWG 0RD 10 PO4 BOOTH POWER PANEL N UPS EXISTING PRE WIRED BY BOOTH MANUFACTURER POS BOOTH POWER PANEL INTERIOR LIGHTS EXISTING PRE WNEO BY BOOTH K NUFACTUFER .6 BOOTH POWER P.EL A INDOTH HVAC EXISDNG PRE WIRED BY BOOTH LIANUFACTURER P07 BOOTH POWER PANEL 'A EXTERIOR UGHT5 EXISTING PRE WIND BY BOOTH 00AN 4CTUOE0 P08 SOOIN UPS BOOTH PLUG MOW (3) 2 A. POWER CORD ATTACHED TO POWER STRIP BOOTH UPS COUP CABINET POWER STRIP (3) 1I AWL 10 PIO BOO. POWER PANEL RI. BATTERY BOX LANE 1 (3) TNWN 12 A 130 •11 BOOTH POW. PANEL A M BATTERY BOX.UNE 2 (3) TNWN 12 A 110 012 BOOTH POWER PANEL A 574 BATTERY BOX LANE 3 (3) TH W 12 WG 110 P13 RPM BATTERY BOX 400 1 Y CONTROL BOX NE 1 U (3) 2 AWG 1 0 RPY BATTERY BOX UNE 2 RPM CONTROL BOX LAN0 2 P15 RPM BATTERY BOX LANE 3 RPM CONTROL BOX LANE 1 (3) 12 A00 0 P16 BOON POWER PANEL A AREA LIGHTS UNE 1 (3) 12 PW 150 117 AREA LIGHT PASSENGER SLOE AREA LIGHT DRIVER SIDE (3) 2 ANC 50 P10 BOOTH PLUG MOW BOOTH TLC 110VAC CORD PROVIDED CABLE P19 BOOTH TLC BEACON LANE 1 (3) 12 AWO 50 P20 BOOTH TLC BEACON UNE 1 (3) 12 AWG 70 P21 BOOTH TLC BEACON LANE 3 (3) 12 AWG 90 COI RPM UK I PASSENGER SID[ RPM 4NE 1 DRIVER 510E (7) I/O A G 25 002 RPM UNE 1 DRIVER 510E mAIN DISCONNECT C*SSIS GROUND (1) I/O 000 ISO 003 RPM UNE 2 DRIVER SID[ RIM LANE 2 PASSE OER SIDE 0) 1/0 AWG 20 004 RPM LANE 2 PASSENGER SIDE R. LANE 3 DRIVER SICE (I) 1/0 ANC 005 RPM 4NE 1 PASSENGER 6100 RPM LAN[ 3 DRIVER SIDE (I) 1/0 AWG 22 006 RPM LANE 3 DRIVER SIDE MAIM DISCONNECT CHASSIS GROUND 0) I/O AWG 20 007 MAIN DISCONNECT GROUND ROD (I) 1/0 ANC 00 000 MAIN 01500NNCCT GROUND ROD (I) 1/0 AWO 100 CONDUIT SCHEDULE I From T C FILL CO. SR[ C M REMARKS COMMUNICATIONS 0 D mart Beet C BOOT 0 INDOOR PLENUM 50 FIELD ROUTE IN C. TRAILER AND UNDER CANOPY C C BOOT C UN PY3 .NI NNE. 411111, TLC), T.I. TLC3 BELDEN 6.137E BELDEN ELECTRONICS DIV 01.I00PIC WIRE 31827 FI OUTS CANOPY CCOS CANOPY COLUMN UNE 1 DRIVER SIDE RPM UNE 1 DRIVER SIDE RPYI..01. ANN 1, 1LC 2 50 ROUTE UNDER PIER C CO LANE NE 1 DRIVER SIDE RPM LANE 1 PASSENGER 5101 6{101 2 20 ROUTE UNDER PIER C LAN C LAN .11 R14.13 A.112 .N3 TLC, 1LC3 ALPHA 121.E CANOPY 0002 CAN UN DRIVE SLOE GN OWY LAN 033( NN3. TLC2. TLU3 AN. OLYMPIC WIRE 1172 Fl OLEIC CANOPY C C OWN LAN P09000 R LAN IVER ANN RP.. TLC1. TLC) CON5000ATE0 WIRE 5051 2A VOC R VAC POWER CABLE (FROM POWER SUPPLY TO CAMERAS) 2 STRAND WITH SHIELD ROUT 0005 RPM LANE 3 ORIVCR SIDE RP4 UNE 3 PASSENGER 5100 0[10) i 30 50075 0111.11 PIIR 0000 0001 UN[ 3 DRIVER SIDE 014 LANE 2 PASSENGER SIDE 0102, ANNE, 0P42, TW2 2 20 11011TE UNDER PIER 0010 RPM UNE 2 PASSENGER SIDE RPM LANE 2 DRIVER SLOE 07108 2 50 ROUTE UNDER PIER OUTSIDE 1.1W5107 0.311T 009W500T BELDEN R •1111.1 AERIAL 024057 74101020, 2 STR NO SINGLE-ROOF FIBERS. INDOOR /OUTDOOR, AERIAL -UL FILLED CORNING SAW CUT 0005• ROAD CABLE POWER CORNING 0964000 1310 R20. 96 SINGLE 0000E FIBERS W7 A DIAMETER OF 5 (0311.) CORNING CO00LISC0PE PAVEMENT CABLE 0 0 0 5L F12NS, 48 0U171 MODE 50 m FIBERS WITH DIAMETER OF 870 (03112) COLINSCOPE CO AIN I P H A p I Tr. tonne METER PO 1 210 P C LAN 110 1 P12' P. P13 P20 PRI CANOPY PCO3 CANOPY COLD N LANE 1 DRIVER 510E RPM UNE 1 DRIVER SIDE PIO, PI6 2 50 ROUTE UNDER PER PC0 RPM 4NE 1 DRIVER SDE RP4 LANE 1 PASSE OCR 510E PI7 2 20 ROUTE UNDER PIER PCO5 CANOPY COLU N UNE 1 DRIVER SHOE CA.. COLUMN 1000 2 DRIVER 510E P11. P12. P20. P21 2 20 0012 ROUTE UNDER CANOPY PC01 CANOPY COL* N UNE 2 DRIVER 510E CANOPY COLUMN LANE 3 PASSENGER 510E PI I. P12. P21 2 20 FIELD ROUTE UNDER CANOPY PC07 CANOPY COLUMN UNE 3 PA55ENGER 510E RPM UNE 3 DRIVER 510E P11. 012 2 10 20707[ UNDER PIER PCO5 RPM UNE 3 DRIVER SIDE RPM LANE 2 PASSENGER SIDE PII 2 10 ROUTE UNDER PIER PC09 PC10 PETER CRP BOOTH 002 2 10 SURFACE NOWT PCII Fily I P AL A p I Tmvlormo CRP ROOTH SPARE 2 2 0 GC01 RP4 10X0 1 PA55ENGER SIDE RP LANE 1 DRIVER SIDE GO1 2 20 ROUTE UNDER PIER CCU RPM UNE 1 DRIVER SIOC MAIN DISCONNECT CO2 2 130 ROUTE UNDER NCR/CANOPY 6003 RPM UNE 2 DRIVER S1DE RPM UNE 2 PASSENGER 5100 003 2 20 RUM UNDER PIER CC00 RIM UNE 2 PASSENGER SIDE RNA LANE 3 DRIVER SIDE GOA 2 10 ROUTE UNDER PIER 0005 R. LANE 3 PASSENGER 5100 RP UNE 3 DRIVER SIDE 005 2 20 ROUTE UNDER PICR 0006 RP LANE 3 DRIVER SIDE 0 DISCON 007 G06 2 120 ROUTE UNDER PIER/GNOPY .07 MAIN DISCONNECT GROUNDING RODS 007. 002 2 100 CABLE EQUIVALENCE SCHEDULE 4 PAIR 22 ANC 20 AWC 10 AWC INDOOR PLENUM 000HAWK 0056175 13 AWO ALPHA 5011. ALPHA 07634 BEWEN 6341371 GRAYBAR MI 37. BERK TCK 611 .124 S BK R BER AI BELDEN 66432 BELDEN ELECTRONICS MV BELDEN 6.137E BELDEN ELECTRONICS DIV 01.I00PIC WIRE 31827 OLYMPIC WIRE 31117 CONSOLIDATED WIRE R9u CONSOLIDATED WIRE 51942 OUTSIDE OR IN GROUND MOHAWK AOVANCEXR, LAN TRAK, OSP TP, OUTDOOR RATED. .51622 ALPHA 35484 ALPHA 30460 ALPHA 35316 HAWK •DV•NCENEY LAN TR., OSP 0057623. DIRECT BURL, SHIELDED BELDEN TRW. BELDEN ELECTRONICS DIV INDOOR NON PLENUM MOHAWK .511155 ALPHA 121.E ALPHA 2140 BELDEN 55.37E BELDEN 53432 OLYMPIC WIRE 1172 OLYMPIC WIRE 3132 C0N50UDATED WIRE 500 CON5000ATE0 WIRE 5051 2A VOC R VAC POWER CABLE (FROM POWER SUPPLY TO CAMERAS) 2 STRAND WITH SHIELD 105100 BELDEN 8761 1 PAIR BELDEN 5760 1 PAIR OUTSIDE ALPHA 35461 I PAIR AVH. 35372 1 PAR PLC CABLE (FROM PLC CONNECTOR TO PLC. 10 PIN) 10 0 12 STRAND WITH SHIELD 0U1510E 0199. 35110 OR 35199/10 ALPHA 35170 OR 35430/72 BEWE 53561(12) BEWEN 13662(11) FIBER OPTIC CARLE A17UCATION 5 STRAND 12 STRAND 2* STRAND 8*2*100TURER OUTSIDE 1.1W5107 0.311T 009W500T BELDEN R •1111.1 AERIAL 024057 74101020, 2 STR NO SINGLE-ROOF FIBERS. INDOOR /OUTDOOR, AERIAL -UL FILLED CORNING SAW CUT 0005• ROAD CABLE 0 01000 3 0 R20. 48 5HOLE 000E FIBERS WITH A DI METER OF 70 m (0.26177) CORNING 0964000 1310 R20. 96 SINGLE 0000E FIBERS W7 A DIAMETER OF 5 (0311.) CORNING CO00LISC0PE PAVEMENT CABLE 0 0 0 5L F12NS, 48 0U171 MODE 50 m FIBERS WITH DIAMETER OF 870 (03112) COLINSCOPE 1 1 1✓ EX E ABOVE GRAD C SAAL PVC COAT GALVANIZ LOCAL UIT BY THOMAS BUT RFOUIRFMFNTS FOR HANDLING 50110 MATERIAL P10vE0 0 ONSiRU ONLY FOR OFFICIAL USE ONLY PORT ANGELES, WA POV AND CARGO RPM CABLE /CONDUIT SCHEDULE 2/21/091® 3007 0 NONE WS7668 1 1 bi 1 1 1 2 10 8 f 1 YOM 541._ COVI LNt BCni0V1� 11[00— wino 5141Ynn fyl�Yihf M Y[ N O 1 u. Ifib INRicas M 01 i[ S 7 111 NV 11• PPG 14111144141/10 Y 1j Et Et PM OK! 0 '01 AT TMA 11 KFECT 080.081 MO 0 108 I 0000 RPY NRD Al N YK !u OS 51 T 50.5 (XI .p_ 010 1K 00 1f 1 I ROU ND Rao y.• X BIER CLAP 11 /K CON1 PROV I CI 110 I I i P V ICY we Y 0110 MIC OC T 51 M 6NI ft 1 M .._1 B 11 01 Bg 1AtlNFl KaD 8!5!9!9 OIE L i[ DIE I 'f DI —1 al CI NOT SHOWN IN DRAWINGS RACEWAY WITH *AMER CONE. PKOV 7000 1041 CONt ROV Ci CI R7J�1ISR.P C1i. 1 11(1100 y Y TAI• au @F10 0610 mom 1_ 7111 Mep LE R IIIJ. nIb NiiO sl.1qgAaI ISP.1 !i I f tIO 1 T� fi X 1 1: •.f 9 [[1117 1 1 1 lei 11 111 Or VENI Vii--------i.% MID M ET U 6.1 W eLb .upN.• 1P CI I N EEO 1 eT/ R.�OM� {0 OAT B PATCH RANK 141 PVC Li �aD 6CC 'TM. 041 008 r•uR. 1 OP 0I T ISO 1 MOUNTING 101.15 11! 13 VEHICLE PRESENCE SENSOR SUN SHIELDS INNI OTC CI XT.V9 PP ROVE OR CONSTRUE UNCLASSIFIED 1E3 ANCHOR IDLY TEMPLATE INNL P.I. Ott CI NOT SHOWN IN DRAWINGS 500 SUPC COMPUTER ••EDUIPMEO WOOD OOD POE 1100 SUp15V1.044 000014 I 1491418000 COMPUTER 74 1.10.0[14 YONITM w 5IAT DILL 11001 M10 OOTIPLEK 708 1704 PIV PRINTER. COLOR INKJCT NP OESKJET 6840 I CABLE. USE, FOR PRINTER WORKSTATION COMPUTER ••COUIPMENT NEEDED FOR EACH CEP WORKSTATION COMPUTER CEP ORKST DO COMPUTER DELL OPT PLEX 755 FLAT SCREEN 0 ITOR VIEWSO C W /IN1(GRATED SPEAKERS PRINTER. COLOR INKJET DESKJCT 6E40 I 1 CABLE. USE, FOR PRINTER UMW 10 FT, 16 FT PRINTER ALL IN ONE PRINTER COPIER FAY, SCANNER 0 JET 611 309 6 5 RGC PROTECT OM DEVICE P019 STSTEI45 60 CIE CI 328 1 ETHERNET SWITCH 24 PORT CISCO SYSTEMS. INC WS 037500 2415 5 OFE CI 440 I TLC NIUNE R72 TLC -04 LAP CI 600 800TH RH. 0 Y ••CCUIP*E*1 NEEDED FOR EACH BOOTH 120. 1 Y 14 BUILDING RIGHT "AND DOOR 7ORTA K N0 1669650 RN 1 OVAL PORTA KING GE- 1220015000 P (*04 100 I 00130220000 1VSS CO B) FILE 000101(1 W/ LOCK ORAW(0S (501N 0 01510 0), RACK FILE 0 CABINET W/ LOCK 2 DRAWERS (2010 0 X151* O), BLACK 5 626 MOBILE PEDESTAL (BOX /BOX /FILE) 1600 SERIES HON 16237 E C WALL CLOCK (1010), SELF ADJ STING FOR D T GM SAVINGS TIME 5 PIES 5(12 NAST 0030(1 C BUCK POLYETHYLENE 7 GALLON cap P000 010150 P HEED TO SELECT 000 PART 4. WWHITE B BUCK. BASE 15 BUCK U001, LOOEM CUP ON DESK (2610 FLEX GOOSENECK). 35 XA 010 U 633 1 PRINTER STAND (0.51* 0 I6 310 X 1291) STAPLES 32009 US 074 CI Os 2 IT SK CHAIR DIM 700 CU CI 634 2 DESK (604 4 240 X 20 1 /211). CHARCOAL COLOR 23.100 0060241 OF( CI 653 1 t IDR CABLE, USB, FOR PRINTER *ELKIN 130133 10 OFF CI 654 1 torr GELD, USE, (OR PRINTER BELKIN (30133 6 CFE CI 660 !GLASS CLEANER, 20 02. NON AMMONIATCU CEB7 307 0(E NOT SHOWN IN DRAWINGS EKON 429/ PLASTIC BRISTLES 13111 SWEEPING 501(11. 662 DUST P AN, PLASTIC E 174606 OFE NOT SHOWN IN DRAWINGS 663 0157004 E TOWELS /WIPES ALL PURPOSE APPROX 12 1 100: GC 20080 P C 5 F 56 0 604 CO PME 1 0 C 3/4 HEIGHT (22 U) ••10U1PMENT NEEDED FOR EACH EQUIPMENT RACK 3/4 HEIGHT !DOOR GB (22 U) U CRT H HK4403000NU91 1 CASTORS 1 FIYE0 SHELF VENTED UEBERT 15301001L GCE NUT 4 SCREW PACKAGE ID 32 OTT 10 UEBERT 201000 P0001 DUN1 POWER STRIP 10 OUTLETS woaK rrlrro* ups ••EQUIPMENT NEEDED FOR EACH WORK STATION UPS 00 1 UPS EBERT G 2 3000 ET 120 RACK MOUNT SET 1(BERT 0 K1 16 32 3 EXTERNAL BATTERY F00 UPS UEBERT 0010 72VBAT 726 I BOOTH GSCONNECT SOUARC D 11224 DS CP CI 750 12 PADLOCK GEE CI NOT SHOWN IN DRAWINGS ]/1 3/3 GO S ELL U 07000_ REQUIRES 3 10 FOOT LENGTHS PER'. IAN R NIGH[ VD EMED TO THIN O 1/2 TAT C P 340 3/1 NA*N LLS WO 5 0) 30 RPM VPS LOU TNG NAROwARE CNAN EL NUTS P7006 20 CO CP CI MUIR. 10 PER LANE OR RPY SET MR HEX NUTS I` UsT�Ei(K NUT STAINLESS R LAN SET. R 0 HARD B B l s /4 2000[ HEX 60 STAINLESS STEEL 1/4 1/4 00 STAINLESS TEEL R LAN R LA" sR A �['�Y y 7 G 1300 POV AND CARGO RPM r g r �3� 4 11�R IA ai DA 611ae n'PADrii! 7 y-- 7 77.._,: c..... Fur PIN I RR A fp A1� 5 .,g, D F =t FU WASHERS ligI�k�isA� �r•or 7777. ..c.... 01 a i( -ti. O C AID Yi A f U Pr Mid 6ql rhS w. B Ed e�.•.c-- e -.a.vi MODEL— DURALUMINUM 16896SW —LH —ST BUILDING SIZE— 168' x 96 DESIGN CODES 2006 INTERNATIONAL BUILDING CODE 2006 INTERNATIONAL MECHANICAL CODE 2006 UNIFORM PLUMBING CODE 2008 NATIONAL ELECTRIC CODE DESIGN CONDITIONS CONSTRUCTION TYPE V —B USE GROUP U OCCUPANT LOAD 2 DESIGN LOADS FLOOR LIVE LOAD 50 PSF ROOF LIVE LOAD 20 PSF WIND SPEED 90 MPH WIND EXPOSURE CATEGORY B IMPORTANCE FACTOR I 10 GROUND SNOW LOAD Pg 20 PSF SEISMIC USE GROUP GROUP I SEISMIC DESIGN CATEGORY D SOIL PROFILE SITE CLASS D SPECTRAL RESPONSE Ss 1.25, S1 0.50 SITE COEFFICIENT Fa 1 0, Fv 1.5 OCCUPANCY IMPORTANCE FACTOR le 1 0 BASIC STRUCTURAL SYSTEM AND SEISMIC RESISTING SYSTEM LIGHT FRAMED WALLS WITH SHEAR PANELS ANALYSIS PROCEDURE EQUIVALENT LATERAL FORCE PROCEDURE DESIGN NOTES USE (1) 1/2' HILTI KWIK BOLT II EXPANSION ANCHOR AT EACH OF THE ANCHOR TABS W/3 1/2" MIN. EMBEDMENT FIRE SEPERATION DISTANCE PER LOCAL CODE. SITE WORK THE SUPPORTING FOUNDATION STRUCTURE IS TO BE DESIGNED BY A WASHINGTON REGISTERED PROFESSIONAL ENGINEER AND IS NOT PART OF THIS INDUSTRIALIZED UNIT APPROVAL. INDEX INDEX AND DESIGN INFORMATION FLOOR PLAN ELEVATIONS SECTION DETAIL BASE FRAME LAYOUT ROOF FRAME LAYOUT RISER DIAGRAM AND PANEL SCHEDULE FASTENING SCHEDULE CORNER /VERTICAL TEE UPRIGHT DETAIL EXTERIOR ROOF DETAIL ANCHOR TAB DETAIL SUGGESTED FOUNDATION PLAN INDICATES SHEETS WITH SITE WORK JOB NO. mLE U.S. CUSTOMS BORDER PROTECTION PORT ANGELES, WA SCALE a9- e_p PORTA -KING 4133 SHORELINE DRIVE 1 -800— BUILDING 314 -291 N/A DRAWN BY SHEET NO. COVER 2 3 4 5 6 7 8 9 10 11 BUILDING SYSTEMS EARTH CITY, MISSOURI 63045 —4200 FAX 314 -291 -2857 MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) DGR DAM 5 -27 -09 REVISED SHEET COVER 96 2 1 —18 1 24 1/8" 44 36" CIRCUIIT A CIRCU T '6' 36" 3' 4' 1/4' ALUM. TEE UPRIGHT (TYP 9) 2 7/8' 2 7/B" 1/4' ALUM. ANGLE CORNER (TYP 4) IMPORTANT NOTE- VERIFY BOOTH DESIGN IS COMPATIBLE WITH ON SITE CONDITIONS FOR PROPER ACCESSIBILITY 168 FORKLIFT POCKETS r THIS SIDE 6 A.F.F I CIRCUIIT A CIRCU T "8 LFORKLIFT POCKETS a THI SIDE 1 44 1 QTY 1' 9ONDUIT THROUGH EXTERIOR WALL w /2' STUB OUT QAPPED ON EXTERIOR CIRCUIT A 0J CIRCUIT "8 29 1/4 55" A.F.F. I QTY 0 ONDUIT THRO EXTERIOR WALL w /2' STUB OUTS ON EXTERIOR N I 36 1/8" NOTE USE (1) 5/8" DIA. HIT HY ISO /HIT -ICE INJECTION ADHESIVE ANCHOR W /MIN. 7 1/2" EMBED. (TYP 6 TABS) PLAN VIEW LEFT HAND LAYOUT (RIGHT HAND LAYOUT TO BE MIRRORED ABOUT THE LONG AXIS) DOWN SPOUT (TYP 2) 19 7 i6 44 /2 O 019 7 /8 3'z3 "x4' 1/2" STEEL ANCHOR TAB w/ 5/8 "0 HOLE WELDED TO BASE FRAME (TYP 6) SITE WORK DURALUMINUM MODEL 16896SW BUILDING NOTES: 0- 100 AMP SINGLE PHASE 24 CIRCUIT EXTERIOR LOAD CENTER w/ MAIN BREAKER EXTERIOR RATED NEMA 3R (Q0124M100RB) 115V DUPLEX OUTLET w/ WIRE MOLD TO PLENUM (0 -2000) 230V, 30 AMP SINGLE OUTLET 128 WATT RECESSED FLUORESCENT T -8 TROFFER w/ SWITCH 40 WATT EXTERIOR INCANDESCENT LIGHT FIXTURE w/ SWITCH (V675 -CPW) 4 "x2" STEEL WIRE MOLD w/ DIVIDER COVER FOR DMA SIGNAL (G4000) STEEL WIRE MOLD w/ 6gty 115V DUPLEX OUTLETS 0 24 0.C. (0 -3000) WIRED TO 2 CIRCUITS AS NOTED w/ DEDICATED GROUNDS EXTERIOR ROOF w/ 3" OVERHANG (SIDES A,B,C) 18" OVERHANG SIDE D DOWN SPOUT (TYP 2) SHIP LOOSE 96" INTERIOR CEILING HEIGHT ACOUSTICAL DROP CEILING (TILE CUT TO SIZE BY PORTAKING, TILE TO BE INSTALLED BY OTHERS) 3068 12 GAUGE STEEL DOOR w /STEEL FRAME, VISION LITE THE FOLLOWING HARDWARE: OMNI SERIES MORTISED LEVER LOCK w/ MEDICO CYLINDER MEDICO REMOVABLE CDRE CYLINDER KEYED TO PATRIOT SYSTEM (08100 MD 03 625 B ICR W P) HAGER STAINLESS STEEL BALL BEARING HINGES (BB1199NRP) SEALS (HAGER 8615) AUTOMATIC RETRACTABLE DOOR BOTTOM (PEMKO 411ASL) THRESHOLD (PEMKO 16556) -LCN ALUMINUM DOOR CLOSER (P1461H) GLAZING: 5/8" MIRROR PANE INSULATED "LOW E" TEMPERED GLASS INSULATION: WALLS FLOOR R -13, CEILING R -19 INTERIOR PANEL FINISH: 5/8" GRAY 81101L COVERED DRYWALL SUBFLOOR: 2 LAYERS OF 3/4" ADVANTECH OSB RAISED RUBBER DISK FLOOR (GRAY) FORKLIFT POCKETS IN BASE w/ COVERS (SIDES A B) U.L. LABEL FOR COMPLIANCE WITH THE N.E.C. PTAC UNIT SHIPS INSIDE OF BUILDING, TO BE INSTALLED ON SITE BY OTHERS PTAC CUTOUT TO HAVE HARDBOARD FILLER PANEL INSTALLED FOR SHIPPING NOTE: PORTA -KING TO SUPPLY 12 OTY 2 "x3/16" ALUMINUM SHIMS PER BUILDING FOR LEVELING. 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1 -800- BUILDING 314- 291 -4200 FAX 314- 291 -2857 JOB NO. SCALE a9 -Q-2o PORTA —KING BUILDING SYSTEMS TILE U.S. CUSTOMS BORDER PROTECTION PORT ANGELES, WA N/A MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) DRAWN BY DGR DATE 5 -27 -09 REVISED SHEET 1 0 U S CUSTOMS BORDER PROTECTION ELEVATION A 0 U S CUSTOMS BORDER PROTECTION O O ELEVATION C 6 2 QTY 2 "0 CONDUIT THROUGH EXTERIOR WALL ELEVATION B W /2' STUB OUTS ON EXTERIOR ELEVATION D 3' -4 3/8' 4 PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 291 -4200 FAX 314- 291 -2857 nTE U.S. CUSTOMS BORDER PROTECTION MODEL 16896SW —LH —ST PORT ANGELES, WA (TYP 16896SW— RH —ST) JOB NO. N/A DRAWN BY DGR SHEET SCALE DATE 5 -27 -09 2 REVISED FINISHED CEILING 96' FINISHED FLOOR 113 1 D CAULK AROUND LOAD CENTER 1 QTY 1 0 CONDUIT THROUGH EXTERIOR WALL W /2' STUB OUT CAPPED ON EXTERIOR 8 O r 1 s t 7 5/8 0 U S CUSTOMS BORDER PROTECTION ELEVATION A 0 U S CUSTOMS BORDER PROTECTION O O ELEVATION C 6 2 QTY 2 "0 CONDUIT THROUGH EXTERIOR WALL ELEVATION B W /2' STUB OUTS ON EXTERIOR ELEVATION D 3' -4 3/8' 4 PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 291 -4200 FAX 314- 291 -2857 nTE U.S. CUSTOMS BORDER PROTECTION MODEL 16896SW —LH —ST PORT ANGELES, WA (TYP 16896SW— RH —ST) JOB NO. N/A DRAWN BY DGR SHEET SCALE DATE 5 -27 -09 2 REVISED 113 1/4 110 OVERALL UPRIGHT HEIGHT HEIGHT 47 48 GUTTER FASCIA �EPDM MEMBRANE A■,0UsTIO ,L DROP CEILI50 2 5/8 4 ALUMINUM ANGLE TOP FRAME /8 INSULATED LOW E GLAZING ALUMINUM NINDOW FRAME INSULATED ALUMINUM PANEL. WHITE E "TERIOR DIAMOND ALUMINUM i —3,4 058 WALL SECTION DETAIL 96 INTERIOR HEIGHT 1 1 /2' POLYISOCYANURATE INSULATIOhI 5/` GRAY VIN"L COVERED DP' WALL RUBBER COVE BASE RAISED RUBBER DISK FLOUF 1 FLOOR 1 LAYER 4 OSB 1 1 /2 PULYISOCYANI IRA TE INOULATION C6 .8. STEEL 'H, NNEL 3 ,3 .4 1 'TEEL ANCHOR TAB TITLE PORTA -KING 4133 SHORELINE DRIVE 1- 800 BUILDING 314 -291 U.S. CUSTOMS BORDER PROTECTION PORT ANGELES, WA JOB NO. N/A SCALE BUILDING SYSTEMS EARTH CITY. MISSOURI 63045 —4200 FAX 314 -291 -2857 MODEL 16896SW -LH -ST (TYP 16896SW- RH -ST) DRAYM BY DGR DATE 5 -27 -09 REVISED SHEET 3 4 19 3/4 167 1/2 1- E q 32' r 19 3/4 32 43 1/4' 32' 32 L 1 L 63 1 32' FORKLIFT POCKETS THIS SIDE 9 47 /2' 3/4 T FORKLIFT POCKET CHANNEL SUPPORTS 2 "x1/4' STEEL BAR STOCK (TYPICAL) q 47 ,,/4 69 1/4' 9' FORKLIFT POCKETS THIS SIDE 9' C6x8.2 STEEL CHANNEL (TYPICAL) 57 1/4 95 FORKLIFT POCKET SIZE. 9'x3" ON 32" CENTER BASE FRAME LAYOUT LEFT HAND LAYOUT (RIGHT HAND LAYOUT TO BE MIRRORED ABOUT THE LONG AXIS) TITLE SCALE p PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 291 -4200 FAX 314 291 -2857 MODEL 16896SW -LH -ST (TYP 16896SW- RH -ST) DRAWN BY SHEET N DGR BASE FRAME LAYOUT JOB NO. DATE REVISED 5 -27 -09 4 95 1/2' 167 1/2' W z W 0) LI ti 0 JUD Z Q W LA_a 0 CC o 0 W 1- 7:4 Z N 0 2 5/8' 4 ALUMINUM ANGLE PERIMETER ROOF FRAME LAYOUT JOB NO. SCALE a9 -Q-eD PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800- BUILDING 314 -291 -4200 FAX 314 291 -2857 TITLE ROOF FRAME LAYOUT N/A MODEL 16896SW -LH -ST (TYP 16896SW- RH -ST) DRAWN BY DGR SHEET DATE 5 -27 -09 5 REVISED 1 1/2' EMT CONDUIT STUBBED THRU FLOOR FOR (3)- #1 THW FEEDS AT SITE BY OTHERS (FIELD WORK) CONNECTION MADE AT SITE BY OTHERS (FIELD WORK) SITE WORK PANEL 120/240V SINGLE PHASE 3 WIRE, TO BE MARKED AS APPROVED FOR USE AS SERVICE EQUIPMENT PANEL 100 A ELECTRIC PANEL RISER DIAGRAM #6 COPPER GROUNDING ELECTRODE IN ACCORDANCE WITH 2002 NEC ART 250, AT SITE BY OTHERS (FIELD WORK) SITE WORK COPPER WIRE SIZES 15 AMP #14 MIN. WITH GROUND 20 AMP #12 MIN. WITH GROUND 30 AMP #10 MIN. WITH GROUND 40 AMP #8 MIN. WITH GROUND 60 AMP #4 MIN. WITH GROUND 90 AMP #2 MIN. WITH GROUND PANEL SCHEDULE 1 3 5 7 9 11 13 15 17 19 21 23 100A SINGLE PHASE 120/24 230V OUTLET INTERIOR LIGHTING EXTERIOR LIGHT SPACE SPACE SPACE SPACE SPACE SPACE SPACE SPACE OV 24 CIRCUIT LOAD CENTER MAIN 30A 15A 15A 20A 115V DUPLEX REC. 20A (3) 115V DUPLEX REC'S 4 20A (3) 115V DUPLEX REC'S SPACE SPACE SPACE SPACE SPACE SPACE SPACE SPACE SPACE 2 6 8 10 12 14 16 18 20 22 24 NOTE THE CIRCUIT NUMBERS SHOWN DO NOT NECESSARILY DENOTE THE ACTUAL CIRCUIT NUMBERS, BUT ARE INTENDED TO DESIGNATE DIFFERENT CIRCUITS. a9-Q-Q0 PORTA —KING B 4133 SHORELINE DRIVE 1 -800- BUILDING 314 -291- TITLE RISER DIAGRAM, PANEL SCHEDULE JOB NO. N/A SCALE UILDING SYSTEMS EARTH CITY, MISSOURI 63045 4200 FAX 314 291 -2857 MODEL 16896SW -LH -ST (TYP 16896SW- RH -ST) DRAWN BY DGR DATE 5 -27 -09 REVISED SHEET 6 DURALUMINUM FASTENING SCHEDULE ROOF TEE INTERIOR BRACE TO PERIMETER ROOF FRAME BASE INTERIOR SUPPORTS TO PERIMETER BASE FRAME CORNER AND TEE UPRIGHTS TO BASE FRAME AND ROOF FRAME WALL PANELS TO CORNER AND TEE UPRIGHTS ROOF PANELS TO ROOF FRAME WINDOW FRAME TO WALL PANELS WINDOW FRAME TO CORNERS OR TEES BASE LAYER OSB TO BASE FRAME TOP LAYER OSB TO BASE LAYER (TOP LAYER TO BE PERP TO BASE LAYER) 3/16' FILLET AND BUTT WELD FULL LENGTH AT ALL INTERSECTIONS 3/16' FILLET AND BUTT WELD FULL LENGTH AT ALL INTERSECTIONS (4) 1/4 x 11/16' DRIVE RIVETS EACH SIDE OF CONNECTION 1/4'x 11/16' DRIVE RIVET 12' o.c. ENTIRE PERIMETER 1/4 —20x 4 GRADE 5 BOLT 18'o.c. ENTIRE PERIMETER #8x 5/8' SCREW, 12' o.c. 1 /8'x 1/2' POP RIVET 12'o.c. 1 1/4 SELF DRILLING TEK SCREW 10'o.c. PERIMETER AND FIELD 1 1/4 STAPLES, 6'o.c. PERIMETER AND FIELD AND 3/8' BEAD OF AFG -01 CONSTRUCTION ADHESIVE MIN. 8' o.c. ON BASE LAYER 1/4 11/16" DRIVE RIVET 12'o.c. 1/4 11/16" DRIVE RIVET TITLE FASTENING SCHEDULE TYPICAL ELEVATION r 1/8' 1/2' POP RIVET #8x 5/8" TEK SCREW SCREWS BOTTOM .—OF PANEL ATTACH TO INTERIOR FLOOR a9 PORTA —KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1 -800— BUILDING 314 291 -4200 FAX 314 291 -2857 MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) JOB NO. DRAWN BY N/A DGR SCALE DATE 5 -27 -09 REVISED SHEET 7 (WALL PANEL) DURALUMINUM FASTENING SCHEDULE ROOF TEE INTERIOR BRACE TO PERIMETER ROOF FRAME BASE INTERIOR SUPPORTS TO PERIMETER BASE FRAME CORNER AND TEE UPRIGHTS TO BASE FRAME AND ROOF FRAME WALL PANELS TO CORNER AND TEE UPRIGHTS ROOF PANELS TO ROOF FRAME WINDOW FRAME TO WALL PANELS WINDOW FRAME TO CORNERS OR TEES BASE LAYER OSB TO BASE FRAME TOP LAYER OSB TO BASE LAYER (TOP LAYER TO BE PERP TO BASE LAYER) 3/16' FILLET AND BUTT WELD FULL LENGTH AT ALL INTERSECTIONS 3/16' FILLET AND BUTT WELD FULL LENGTH AT ALL INTERSECTIONS (4) 1/4 x 11/16' DRIVE RIVETS EACH SIDE OF CONNECTION 1/4'x 11/16' DRIVE RIVET 12' o.c. ENTIRE PERIMETER 1/4 —20x 4 GRADE 5 BOLT 18'o.c. ENTIRE PERIMETER #8x 5/8' SCREW, 12' o.c. 1 /8'x 1/2' POP RIVET 12'o.c. 1 1/4 SELF DRILLING TEK SCREW 10'o.c. PERIMETER AND FIELD 1 1/4 STAPLES, 6'o.c. PERIMETER AND FIELD AND 3/8' BEAD OF AFG -01 CONSTRUCTION ADHESIVE MIN. 8' o.c. ON BASE LAYER 1/4 11/16" DRIVE RIVET 12'o.c. 1/4 11/16" DRIVE RIVET TITLE FASTENING SCHEDULE TYPICAL ELEVATION r 1/8' 1/2' POP RIVET #8x 5/8" TEK SCREW SCREWS BOTTOM .—OF PANEL ATTACH TO INTERIOR FLOOR a9 PORTA —KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1 -800— BUILDING 314 291 -4200 FAX 314 291 -2857 MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) JOB NO. DRAWN BY N/A DGR SCALE DATE 5 -27 -09 REVISED SHEET 7 3'x 4 x 1/4 ALUM. TEE UPRIGHTS (RIVETED TO BASE FRAME AND TYP TO ROOF FRAME) II 27/8'x27/8'x1/4 ALUM. ANGLE CORNERS (RIVETED TO BASE FRAME AND TYP TO ROOF FRAME) BASE FRAME 1/4 x 11/16' DRIVE R VET (TYP 4 EACH TEE UPRIGHT, AND TYP AT ROOF FRAME) CORNER /VERTICAL TEE UPRIGHT DETAIL 1/4 x 11/16 DRIVE RIVET (TYP 4 EACH SIDE ANGLE CORNER, AND TYP AT ROOF FRAME) JOB NO SCALE a_9 ep PORTA -KING B 4133 SHORELINE DRIVE 1- 800 BUILDING 314 -291- TITLE CORNER /VERTICAL TEE UPRIGHT DETAIL N/A UILDING SYSTEMS EARTH CITY, MISSOURI 63045 4200 FAX 314 291 -2857 MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) DRAWN BY DGR DATE 5 -27 -09 REVISED SHEET 8 GUTTER FASCIA 1 /4 -20} 4 CE,ADE J BOLT 10 L1 C AT PERIMETER II I I 11 INI VG 5'8 4 ALUMINUM ANGLE TOP FRAME (INTERIOR) EXTERIOR ROOF CONNECTION DETAIL EPDM MEMBRANE ACOUSTICAL DROP CEILING INSULATED ALUMINIUM PANEL, WHITE 03-Q -Q0 PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 291 -4200 FAX 314 291 -2857 TITLE EXTERIOR ROOF DETAIL MODEL 16896SW (TYP 16896SW- RH -ST) JOB NO. SCALE N/A DRAWN BY DGR DATE 5 -27 -09 REVISED SHEET 9 ANCHOR TAB DETAIL CORNER POST WALL PANEL BASE FRAME 3' x 3' x 1/4 STEEL ANGLE x 4 LONG ANCHOR TAB, WELDED TO BASE (TYP 6) a9-Q4 s3 PORTA —KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314- 291 -4200 FAX 314 -291 -2857 TITLE ANCHOR TAB DETAIL JOB NO. SCALE N/A MODEL 16896SW -LH -ST (TYP 16896SW- RH -ST) DRAWN BY DGR SHEET DATE 5 -27 -09 1 0 REVISED 116' 96' (BUILDING) FOUNDATION NOTES 168' u 188' SUGGESTED FOUNDATION PLAN NO SCALE MIN. ALLOWABLE SOIL BEARING CAPACITY 2000 PSF MIN. CONCRETE COMPRESSION STRENGTH 3000 PSI NOTE FOUNDATION AND FOUNDATION DESIGN TO BE DONE BY OTHERS. 3'x 3'x 1/4 x 4 LONG STEEL ANGLE ANCHOR TAB WELDED TO BASE (TYP 6) I SITE WORK a.9-Q-R.n PORTA -KING B 4133 SHORELINE DRIVE 1- 800- BUILDING 314 -291- TITLE SUGGESTED FOUNDATION PLAN JOB NO. N/A SCALE UILDING SYSTEMS EARTH CITY, MISSOURI 63045 4200 FAX 314 291 -2857 MODEL 16896SW —LH —ST (TYP 16896SW— RH —ST) DRAWN BY DGR 5 -27 -09 DATE REVISED SHEET 11 Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson U S. Customs Border Protection Port Angeles, WA Structural Calculations Pre Assembled Building Duraluminum Book l of l Calculation Release #1 Prepared for Porta -King Earth City, MO I EXPIRES 3[i Larson Engineering, Inc. St. Louis, Missouri Project Number 51090137 000 APR 2 2 2009 2009 Larson Engineering, Inc. All rights reserved. 2. Secure each angle to concrete with (1) diameter Hilti Kwik Bolt 3 with minimum 3 1 /4" embedment. 3 Concrete assumed to be normal weight, f c =3000 psi. 4 The adequacy of the concrete foundation was not checked by Larson Engineering. It is the responsibility of others to check the existing conditions. Pre Assembled Building System U.S. Customs Border Protection Port Angeles, WA Prepared for Porta -King Earth City, Missouri Important Field and Installation. Notes 1 Secure base track to concrete with (6) 3" x 3" x 1/4" x 4" long A36 Steel Angles with 7/8" diameter hole. 5 Structure to be secured to concrete foundation by others. Maximum loads to concrete at anchor locations are Tension. T 0 857 kip Shear- V 0 547 kip Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson Project Information. Project: U S Customs Border Protection Project Location. Port Angeles, Washington Project Number- 51090137 000 Load Criteria 1 Structural loads per International Building Code 2006 2. Structural calculations based on Porta King drawings dated March 6, 2009 Structural Steel 1 Steel plates and shapes to be minimum A 36 steel. Aluminum Systems 1 Aluminum extrusions shall be grade 6063 -T6 or 6005 -T6 as called for in the calculations. Members designed per the Aluminum Association, "Specifications for Aluminum Structures." Panel Systems 1 Deflection of panels shall be L /180 at the center of the span for framing members. 2. Wall panels are to be constructed of 3 /4" OSB with exterior diamond embossed aluminum panel and intenor panel finish of 5/8" vinyl covered drywall. Fasteners, Welds, Anchors Design Criteria 1 Screws shall be SAE Grade 2 or Grade 5 as called for in calculations with diameters as shown on drawings. 2 Structural bolts shall be SAE Grade 5 with diameters as shown on drawings. Design Criteria I 5 Larson 3 Concrete anchors shall be Hilti Kwik Bolt 3 anchors having diameter and embedment as called for in the calculations. Install per manufacturer's recommendations. 0 Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com Disclaimers The following calculation package represents Larson Engineering's interpretation of the design intent of the shop drawings and specifications. Larson Engineering is not responsible for verification of dimensions, material take -offs, installation and coordination with other building trades. If as -built conditions differ from the conditions shown in this calculation package, Porta -King must bring these differences to the attention of Larson Engineering so that the as -built conditions can be structurally verified. 2. The adequacy and design of the concrete slab and/or footing was not checked by Larson Engineering. It is the responsibility of others to check the existing conditions. Design Criteria II 5 Larson APR 2 2 2009 f11 \IS9 4n� Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com Building Plans and Details P -1 to P -6 Structural Calculations C -1 to C -28 RISA Model Analysis M -1 to M -29 Appendix A. Section Properties A -1 to A -3 Appendix B Technical Information. B -1 to B -13 Table of Contents 5 Larson Building Plans and Details Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com OD 96" 2 CITY r• CONDUIT 1HR0UGH EXTERIOR WALL W/Y STUB OUTS ON DCIERIOR I I I I 2 11/16" 41 9/16 36" 168" FORK 485 9 44" PLAN VIEW RIGHT HAND LAYOUT STANDARD MODEL 29 1/4" 3'x3 "x4'x1 /4" STEEL ANCHOR TAB w/ 7/8"0 HOLE WELDED TO BASE FRAME m T 3 W/ MIN. 31' D 7/8" 44 1 /2" 19 7/8" DOWN SPOUT (fl 2 DURMLMINIAI MODEL 16696SW BUILDING NOTES` 0— 200 AMP 9NGU:.PHASE 30 CIRCUIT EXTERIOR LOAD CENTER w/ MAIN BREAKER EXTERIOR RATED NEMA 3R (Q0130M200RB) TVSS (002175SB) 115V DUPLEX OUTLET w/ MARE MOLD TO PLENUM (G -2000) 230V, 30 AMP MOLE OUTLET 64 WATT RECESSED FLUORESCENT T -B TROFFER w/ SWITCH 40 WATT EXTERIOR INCANDESCENT UGHT FIXIURE w/ SWITCH (V675-CPW) 230V, 14,600 C 17,000 H BTU 1HRU -WALL PTAC UNIT w/ T -STAT (AZ28EI5DAC) rite STEEL WIRE MOLD w/ DIVIDER COVER FOR DATA SIGNAL (04000) STEEL WWE MOLD w/ 6gt7 115V DUPLEX OUTLETS O 24' 0.0. 0-3000) 1 RUN O 32' A.F.F WIRED 10 LOAD CENTER, 1 RUN 0 21' A.F.F WIRED 10 CORD PLUG 0-- 115V DUPLEX OUTLET NENA L5-301 OUTLET ON DEDICATED CIRCUITS w/ WIRE MOLD TO PLENUM (0 -2000) EXTERIOR ROOF w/ 3' OVERHANG (SIDES A,B,C) 18' OVERHANG SIDE D DOWN SPOUT (T1P 2) SHIP LOOSE 08" INTERIOR CEILING HEIGHT ACOUSTICAL DROP CEILING (TILE CUT 10 SIZE BY PORTAKING, 11LE TO BE INSTALLED BY CMOS 3068 12 GAUGE STEEL DOOR w/S1EEL FRAME. VISION UTE THE FOLLOWING HARDWARE: BEST SERIES MORTISED LEVER LOCK w/ KEY PAD ENTRY SYSTEM (45HZ- 7- TV- 15-KP- 826 -LC) -HAGER ROTOR CONTINUOUS GEAR HINGE SEALS (HAGER 8615) -DOOR SWEEP (HAGER (7585) 1HRESHOLD (PEMKO 1865A) -LON AWMINUTA DOOR CLOSER (P1461H) DAZING: 5/8" MIRROR PANE INSULATED "LOW 8" TEMPERED GLASS LEVOLCR MINI BLINDS (GRAY) FOR FIXED WINDOWS INSULATION: WALLS FLO N R -13, CEILING R -16 INTERIOR PANEL FINISH: R DRYWALL SS OF ADVANTECH OSB LAYERS RNSED RUBBER DISC FLOOR (GRAY) FORKLIFT POCKETS IN BASE w/ COVERS (SIDES A C) U.L LABEL FOR COMPLIANCE VAIN THE N.E.C. PTAC UNIT SHIPS INSIDE OF BUILDING, TO DE INSTALLED ON SITE BY OTHERS PTAC CUTOUT TO HAVE HARDBOARD FILLER PANEL INSTALLED FOR SHIPPING NO1E: PORTA -KING TO SUPPLY 12 OTT Yx4'x3/16" ALUMINUM SHAM PER BUILDING FOR LEVELING. 0 0 0 0 0 0 0 SHOP DRAWING a9-Q-to PORTA —KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 -291 -4200 FAX 314 -291 -2857 111LE U.S. CUSTOMS MODEL 16896SW —RH BORDER PROTECTION ae NO. REVISION 14.4 DRAWN 8Y DGR SHEET SCALE DAZE 11 -29 -04 1 OF 5 NTS MIMED 03 -06 -09 U.S CUSTOMS BORDER PROTECTIO /1 d /1 1 19 ri r n C ri C ELEVATION A [U.S. CUSTOMS BORDER PROTECTION 11 r r ELEVATION C 7 -8' 1IIIIIIIII IIIIIIIIII IIIIIIIIII IIIIIIIIr 11111111111111101111111111111111111111 IIIIIIIIII IIIIIIIIII IIIIIIIIII IIIIIIIIII CAULK 10000_,/ UWO CO= -r re FINISHED CEILING FINI 98• 113 7 5/8' art r. moor 1001■1 MOM IIALL Ntt' alp Waal LOOM 3-4 sir L ROOF SLOPE 1/4- PER FOOT ELEVATION B ROOF SLOPE 1/4' PER FOOT 0 ELEVATION D /4' SHOP DRAWING PORTA -KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARN CITY, MISSOURI 63045 1- 800 BUILDING 314 291 -4200 FAX 314 -291 -2857 TInE U.S. CUSTOMS MODEL 16696SW —RH BORDER PROTECTION 'TDB NO. REVISION 14.4 DRA Pl BY DGR SHEET SCALE DATE 11 -29 -04 2 OF 5 NTS REVISED 03 -06 -09 FINISHED DROP CEL FINISHED DROP CEIUNG NG ONO) MIN 11111. 191/V NNDI MILT of e/ INN I m°°° ..MMN I 44 NIN "nmer MM NM I E4' 7!' f�I 01000 r 115V PPM WW r7 FINISHED DROP CEL ®00p fE Ma 54TAT NG ONO) MIN 11111. 191/V NNDI MILT I is 1/r FINISHED FLOOR FINISHED FLOOR INTERIOR ELEVATION A 1/Y aoaur Ca1WT INTERIOR ELEVATION C RUSHED FLOOR INTERIOR ELEVATION D FINISHED FLOOR INTERIOR ELEVATION B SHOP DRAWING 09-Q-QD PORTA -KING BUILDING SYSTEMS 4133 SHOREUNE DRIVE EARTH CITY, MISSOURI 63045 1 -800- BUIL0ING 314 291 -4200 FAX 314 -291 -2857 1 TLE U.S. CUSTOMS BORDER PROTECTION MODEL 16896SW -RH DRAM BY DGR JOB Na REVISION 14 4 SCALE NTS DAZE 11 -29 -04 REVISED 03 -06 -09 SHEET 3 OF 5 #12 C�Rl 8" S 113 1/4" OVERALL UPR 110„ HEIGHT HEIGHT 47 48" GUTTER FASCIA 5/8" INSULATED LOW E GLAZING ALUMINUM WINDOW FRAME 3/4 OSB EPDM MEMBRANE INSULATED ALUMINUM PANEL, WHITE ACOUSTICAL DROP CEILING 2 5/8 "x 4 ALUMINUM ANGLE TOP FRAME EXTERIOR DIAMOND EMBOSSED ALUMINUM 1 1/2" POLYISOCYANURATE INSULA11ON 5/8" GRAY VINYL COVERED DRYWALL 4 RUBBER COVE BASE AISED RUBBER DISK FLOOR 1 1/2" FLOOR (2 LAYERS 3/4" OSB) \_1 1/2" POLYISOCYANURATE INSULATION C6x8.2 STEEL CHANNEL STEEL ANCHOR TAB WALL SECTION DETAIL 96" INTERIOR CONDUIT w/ HEIGHT 2" STUB OUT LOCK NUT BUSHING WIRE MOLD 7 3/8" EXTERIOR CONDUIT SECTION DETAIL SHOP DRAWING PORTA-KING BUILDING SYSTEMS 4133 SHORELINE DRIVE EARTH CITY, MISSOURI 63045 1- 800- BUILDING 314 -291 -4200 FAX 314 -291 -2857 nnE U.S. CUSTOMS BORDER PROTEC110N MODEL 16896SW -RH ABM Ha REVISION 14.4 DRA" BY DGR WALE NTS DATE 11 -29 -04 HOMED 03 -06 -09 SHEET 4 OF 5 ALUMINUM DRIVE RIVET USE o )1Y 4 11 DWUt IZiv Per Cowin com oaXION PANEL CONNECTION TEE DETAIL CAULK (TYPICAL ALL CONNECTIONS) 2 7/B CAULK (TYPICAL ALL CONNECTIONS) PANEL CONNECTION CORNER DETAIL ALUMINUM 2 7/B" DRIVE RIVET US- (0) iitr D NE R1v ETS AT 141�Er- COL MN N P CONNECTION 1/4 H f WINDOW GLAZING DETAIL SHOP DRAWING co yep PORTA —KING BUILDING SYSTEMS 4133 SHOREUNE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 -291 -4200 FAX 314 -291 -2857 1111E U.S. CUSTOMS BORDER PROTECTION ROD Ho. REVISION 14 4 SCALE NTS MODEL 16696SW -RH DRAWN BY DGR DATE 11 -29 04 REVISED 03 -06 -09 SHEET 5 OF 5 95 /Y t 47 3/4 47 3 /4• -19 3/4• 32• 69 1/4 F 320 q. 63 1/4' 9' a g FORAUFI POCKETS THIS SIDE L r FORKIJFT �J 32 32' 57 1/4• q. FORICUFT POCKET CHAN EL SUPPORTS Yx1 /4 STEEL BAR STOCK (TYPICAL) 06x8.2 STEEL CHANNEL g• 63 1/4 19 3/4'— BASE FRAME LAYOUT RIGHT HAND FORKLIFT POCKET SZE 9x3 CH 3Y CENTER SHOP DRAWING o9 -Qe.0 PORTA —KING BUILDING SYSTEMS 4133 SHOREUNE DRIVE EARTH CITY, MISSOURI 63045 1- 800 BUILDING 314 -291 -4200 FAX 314 -291 -2857 1111E U.S. CUSTOMS BORDER PROTECTION MODEL 16896SW —RH JOB NO. REVISION 14 4 D"1414 BY DGR SCALE NTS DAZE 11 -29 -04 REVISED 03 -06 -09 SHEET DETAIL 5 Larson Structural Calculations Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr com 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com L J SUBJECT. U.S. Customs SHEET NO. C -1 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 L DESIGN LOADS ROOF LOADS FPDM Membrane rdl1 1 psf Roof Panels rd12 2 psf Insulation and drop ceiling Misc rdl3'= 6-psf Alum Framing rdl4'= 2 psf Roof Dead Load RDL E rdl RDL =11.0 psf Roof Live Load RLL 20-psf Total Roof Load: TRL RLL RDL TRL 31 psf FLOOR LOAD Rubber Floor fdl1 1 psf (2) 3/4 OSB fdl2 5-psf Floor Framing Insulation fdl3 2 psf Floor Dead Load FOL Efdl FDL 8.0-psf Floor Live Load FLL 50psf Total Floor Load TFL FDL FLL TFL 58-psf L oh WALL LOAD 3/4 Duraflake wdl1 2 psf 1' insulation and Drywall wd12 2 psf Framing wd13 1 psf Wall Dead Load BUILDING GEOMETRY L 168(n W 96in H 113.25in L 18•in Woh 3-in H 3in TOTAL BUILDING DEADLOAD Weight FDL L W RDL L W 2 (W L)•H WDL Weight 44•kip WDL Ewdl WDL 5.0-psf L r L L o h L 15.5ft Wr W 2 Woh W 102 in 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -2 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 SNOW LOADING (IBC 2006) Ground Snow Load (Figure 1608.2) p 25psf Exposure Category C 1.0 Partially Exposed Thermal Factor (Ct) C 1.0 Importance Factor I 1.0 Occupancy Cat 11 pf 0 7 'Ce•Ct Is Pg pf 17.5 Design Snow Load SL if(p 20psf max(pf 20psf I max(p RI Is)) SL 20.psf TRL max(RDL SL, RDL RLL) TRL 31 psf Llve Load Controls WIND LOADING (IBC 2006) Basic Wind Speed (Fig 1609): Speed 100mph Importance Factor (Table 1604.5): (Category 11) ra Wind Exposure Category D Exposure Coefficient (ASCE 7 -02, Table 6- 3XExposure B) Kh 1.03 Topographic Factor (ASCE 7 -02, Fig. 6 -4) (Assume Flat Terrain) Kzt 1.0 Wind Directionality Factor (ASCE 7 -02, Table 6 -4) Kd 0.85 Velocity Pressure q 0 00256•K Kzt K I psf q 22.41-psf (ASCE 7 -02, eq. 6 -15) Gust Effect Factor (ASCE 7 -02, 6.5.8.1) G 0.85 Internal Pressure Coefficient GC –018 W =1.18 H/W 'h /L W 0.57 W/L 'L /B' External Pressure Coefficients C,,,, 0.8 Cp_roof –1.3 (ASCE 7 -02, Figure 6 -6) C pIw –0.5 C –2.1 Design Wind Pressures (eq. 6 -17) p q G•C q•(GC Pww q G'C ww 9 (GCpi) Plw'= q G CI q•(GCp1) Proof q G•Cp_roof q Proofmax min[q•G•Cp_ q•(GCpI Proof] Poh q•G'Cp_oh Speed V mph I, 1.0 p 19.3• psf plw –5.5-psf Proof –20 7 psf Proofmax –28.8-psf P –40 01.psf 5 Larson Wind Load Parallel to Long Walls VwiL'= WL W 2 WL H (Wr W) V wiL e 8Ibf Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 2455 314 731 4710 Fax: 314.731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -3 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 Wind Loads WL Pww Plw WLr I Proofmaxl WI- l P ohl WL 2477 psf WL 28.8•psf WL 40 01.psf H Wind Load Parallel to Short Walls Vwis WL L 2) WL Hr (L L) V 1645•Ibf 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -4 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 SEISMIC LOADING (IBC 2006) Site Class D Seismic Use Group I Occupancy Importance Factor (Table 16045): Response Modification Factor (Table 1617.6.2): Spectral Response Accel at Short Period (Fig. 1615(1)): Spectral Response Accel at1 sec. Period (Fig. 1615(2)): Site Coef as func of site class and Ss (Table 1615.1.2(1)): Site Coef as func of site class and S1 (Table 1615.1.2(2)): Building Period Coefficient (16174.2.1): H hroof ft Aroof Wr Lr Height of roof Area of roof. Dead Load of Root Dead Load Walls: Dead Load Floors: Linear length of walls: Dead Load at Roof Level: List 2(W L) H Weight RDL L W WDL• 2 [2(L W)] IE•= 1.0 R 2.5 S 1.462 0.663 F 1.0 F„• =1.5 C 0 02 hroof 9 44 Aroof 132 f t 2 RDL =11 psf WDL 5-psf FDL 8•psf L1st 44. ft Weight, 2.49.kip 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr com V SUBJECT. U.S. Customs SHEET NO. C -5 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 Find Seismic Shear: Max Earthquake Response Accel Short Per for Short Per SMS'= F 5 Max Earthquake Response Accel. Short Per for 1 sec. Per SM1 Fv S1 Design Spectral Response Accel Parameter for Short Per 2 SDS 3 SMS Design Spectral Response Accel Parameter for 1 sec. Per 2 SD1 3 SMt Aproximate Fundamental Period: T CT'hroof T 011 SDS Seismic Response Coefficients: C R IE Cs Shall Not Be Less Than: C, 0 044•5 I C 0.39 C 0.39 Cs ifRif( Cs2 C C52)) Cs3 C62 Cm C52))] V C Weight, V 970•Ibf Design Lateral Load VdesS max(Vwis Vs) VdesL max(VWIL Vs) Vdes maX(VdesS 4 3 C 2.46 C 0.04 VdesS 1.65•kip Vdes 1.65•kip S =1.46 5 0.99 SDS 0.97 SDI 0.66 SDI C s 2 R Ta Wind Load Controls V desL 0.97 kip Seismic Load Controls 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -6 ROOF DIAPHRAGM Checking #12 4) Gr. Fastener Spacing Wall Height Wall Length Wall Width Wind Load Roof Wind Load Yellow 5931bf w (WL)-( 1 w•L M 8 Compression in Chord W BoltTension WL 2 J Sp Border Protection PROJECT NO. 51090137.000 Port Angeles, WA 5 Diaphragm 5olts Sp 18in H =944ft L 14ft W 8ft WL 24.8.psf WL 28.8•psf Tallow 527Ibf w= 116.9•plf M 2863.2 1 bf ft M Compression) W BoltTension 2 BoltShear 2 0.29 1.00 OK Tallow Vallow BY RV DATE 4/21/2009 (Sheet B -5) Compression) 358•Ibf Vdes Collector Force Compression2 2 Compression2 823.4bf Maximum Force in Chord based on RISA Analysis Sheet M -17 Compression3 1.337kip Compression max(Compressionl Compression2 Compression3) Compression 1337 Ibf Compression BoltShear W Sp BoltShear 250 7 Ibf BoltTension 172.8•Ibf Use #12 4 Gr. 5 Thru Bolts ®18' O.C. Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson u 2.625 Length 2.625 SUBJECT. U.S. Customs SHEET NO. C -7 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 2 5/8 x 4" x 3/16" ANGLE TOP TRACK DESIGN Roof Wind Load: Total Roof Load: Tributary Width: Length between supports. W tw 2 Unbraced Length (fastener spacing): SECTION PROPERTIES 2 5/8 x 2 5/8 x 3/16' ALUM ANGLE Conservative Check (6063 -T6) Sheet Al: S 0.335•in S S E 10100•ksi A 0.9492 in Mmax fb S x Fb1•= Fb1 151 ksi I 0 636.in I I 3 t• in 16 WL 28.8-psf TRL 31 psf tw 48-in L 48•in Lb 18•in r 0.8181•in r r b 2.625•in k•= 1.0 CHECK BENDING BETWEEN SUPPORTS (Sheets 52 -53) w (TRL) tw w 124•plf w tw•WL w 115.2 pif w max(w w w= 124•plf Mmax 0125•w•L Mmax 248•Ibf ft f 8.88•ks1 Lb Lb Lb 87000 22,15.ksi i 94 16.7 ksi 0.073•ksi ksi r r r LJ 2 ry 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs Border Protection Port Angeles, WA Allowable Sending Stress (6063 -T6 Alum. Spec.17) (Sheet 5 -3 b b b 4930 10 20•ksi if 23 27.9-ksi 0.808.— ksi ksi t t t Fb2 if Fb2 16.6•ksi Fb min(Fb1 Fb2) fb Fb L k 58.7 r CHECK DEFLECTION 5 w Ls 384E I Ls Hallow 240 Deflection Is OK Angle Is OK In Bending Between Supports Compression fa A k L Ls 51100 F <7814.2- 0074•k f 2 x x LS k— r f F OK Angle Is OK In Compression 2 5 /8"x 4"x 3/16"Aluminum Angle Top Track OK SHEET NO. C -8 PROJECT NO. 51090137.000 BY RV DATE 4/21/2009 Fb 15.09•ksi fb 8.88•ksi OK Check Diaphragm Chord Forces (Allowable Axial Stress 6063 -T6 Alum. Spec No. 7) (Sheet 52) Compression in Chord Compression 1337 Ibf A 011in Dallow 0.2 in f 1.41 ksi t ksi F 9.86•ksi 5 Larson Vsl Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com WIND DIRECTIDN z D SUBJECT. U.S. Customs SHEET NO. C -9 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 OVERTURNING Building Length L =14ft Building Width W 8ft Building Height H 944ft Roof Length L 15.5ft Roof Width W 8.5 ft Overhang Length Overhang Width L 1.5•ft Woh 0.25•ft Wall Wind Load WL 2477 psf Roof Wind Load WL 28.8-psf Overhang Wind Load WL 40 01.psf Overturning Moment Due To Wind H (W �W1 M WL L 2 H WL H L H WL L W•I 2) WL W' Loh J' 2J M 31.2 kip.ft Overturning Moment due to Seismic M V H M 9152 ft lbf Maximum Applied Overturning Moment M max(M M M 31169 ft lbf Actual Resisting Overturning Moment W11 W Mres'= FDLLW 2I +RDLL 2 WDL H L W WDL 2 W H 2 W Mres =177 kip ft Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314.731 4712 www.larsonengr.com 5 Larson orn br k 3 r f Hold Down Angle SUBJECT. U.S. Customs SHEET NO. C -10 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 Required Holddowri Loads M reg M 0 6 Mres Mreq Tmax W V max WL L (H) WL Loh Hr 3" x 3" x 1/4" x 4" LONG STEEL HOLD DOWN BRACKET Loading at Each Bracket Tmax Tbrkt 3 Tbrkt 856.58• I bf Vbrkt Vmax 6 I (0.5in) Hold Down Angle Section Properties brk# arm 1.5in Z (4{n) 4 Z 0.25 in 3 Check Angle Used For Bracket F Y 36ksi Mbrkt' Tbrkt arm F y Z x Mallow 1.67 Mallow Mbrkt Vbrkt 546.92 Ibf Mbrkt 1284.87 Ibf in Mallow 5389.22 Ibf in OK Use 3"x3"x1/4" A36 Steel Angle, 4" Long M feg 20.6.kip ft Tmax 2569 7 Ibf Vmax 3281.5•Ibf Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson SUBJECT. U.S. Customs SHEET NO. C -11 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK 3/4' HILTI KWIK BOLT 3 W/ 31/4° EMBED. IN CONCRETE LOADING AT EACH BOLT Tbolt Tbrkt Tbolt 857 Ibf Vbolt Vbrkt Vbolt 547 Ibf Tallow 24251bf (Sheet 5 -1) Tbd 857 Ibf Vallow 49001bf COMBINED 5 5 3 3 T bolt V bolt 0.20 T a llow V al low Vallow 4900 lbf Vbolt 547 lbf OK 1.00 OK USE MIN 3/4" 0 HILTI KWIK BOLT W/ 31/4" EMBED. IN CONCRETE OK L Ibf Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com 5 Larson WELD LOAD DIAGRAM SUBJECT. U.S. Customs SHEET NO. C -12 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK WELD (3/16" FILLET WELD) Weld Section Properties b 3•in d 2.5•in Length of Weld Section Modulus of Weld Forces on Weld Vbrkt f,, Lweld Tbrkt fvy Lweld F Vb arm T arm S 2 2 fr (f,2 fbz) +-f Fillet Weld Capacity: Lweld 2 dw 0.6.70ksi 0707 01875•in F f OK 2.0 d Sw 3 Lweld 5•in S 2.083•in Ibf f 1094•— in Ibf f 171.3• in lbf fb 10105• in Ibf f 1132.9•— in Ibf F 2783.81• in 3/16° Fillet Weld w/ Min Length 2.5 In on each side Is OK 5 Larson O of Lateral Load Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -13 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 LATERAL FORCE RESISTING SYSTEM Deflection of Elev D due to Unit Load Deflection of Elev 5 due to Unit Load Rigidity of Elev D Rigidity of Elev B Lateral Load Distributed to Elev D Lateral Load Distributed to Elev B Distance from Centroid of Building to Elev D Distance from Centroid of Bulding to Elev B Distance from Centroid to Center of Rigidity Moment due to Eccentricity Lateral Load in Long Walls VdesL max(VwIL Vs) Lateral Load Taken by Elevation A Lateral Load Taken by Elevation 5 Lateral Load Taken by Elevation C Lateral Load Taken by Elevation D AD 1.53in LISA, Shseet M 4 AD 0.33in °RI5,A,S4e047 2 1 Rp Rp 0.65•in 1 D 1 RB R5 3.03•in -1 0 B Vdes RD PD PD 291.93•Ibf R B D Vdes RB P5 P5 1353.47lbf +R B L XD 2 XD 7ft L x 2 x 7 ft XCR M lat Vc W —XD-RD XB RB VB PB Vc•= VA VD P Rp RB Mlat Vdes XCR VdesL VA max V xCR 4.52 ft Miat 743•1(iP•ft V 928.86• I bf VA 928.86•Ibf VB 1353.47 lbf V 928.86• Ibf Vp 291.93•Ibf 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -14 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK SHEAR PANELS Total Lateral Load: CHECK TYPICAL ALUMINUM PANEL Ta 1.86kip A 9in 0 0202in Plat Vdes SHEET M -18 Pl 1645.4.1bf Allowable Tension Stress (3003 -H14 Alloy Spec. No.1, SHT 5-7) T f A f 10.23•ksi F 10.5ksi f 0.97 F 1.0 OK USE ALUMINUM PANEL AS STRAP BRACING IN PANELS AT WINDOWS IN LONG WALLS Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com SUBJECT. U.S. Customs Border Protection Port Angeles, WA T 0.682kip SHEET M -10 SHEET NO. C -15 PROJECT NO. 51090137.000 BY RV DATE 4/21/2009 CHECK FULL HEIGHT PANEL CONNECTION T 1.86-kip See Risa Output Sheet M -18 1600lbf Vallow (Sheet B -11) Vallow 640 Ibf 25 T Number of Rivets Required NoRIV NoRiv 2.91 Vallow Number of Rivets Used Noused'= ceil(NoR Noused 3 T Shear on Each Rivet: 620 Ibf Noused Use minimum (4)1/4" Drive Rivets in each Corner at full height Panel to Column Attachment CHECK PANEL CONNECTION (AT WINDOWS ON LONG SIDES) 16001 bf Vallow (Sheet 8 -11) Vallow 640•Ibf 2.5 T Number of Rivets Required No NoRiv 1.07 Vallow Number of Rivets Used Noused ceil(NoR Noused 2 T Shear on Each Rivet: 341 Ibf Noused OK OK Use minimum (2)1/4" 4 Drive Rivet In each Corner at Panel to Column Attachment at Window panels on long sides 5 Larson Load 1)iagra 3 Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 vnw✓.larsonengr.com F P 4 SUBJECT. U.S. Customs SHEET NO. C -16 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 4" x 3" x 1/4" ALUMINUM TEE STUD Number of Columns in Controlling Wall: No 5 Height of Shear Panel Below Windows: V Point load at top of column: F F 185.8•Ibf No Length of column: L� 104 in Unbraced Length: Lb 47 in Trib Width TW 481n Wind Load p W11 19.3•psf Roof Load TRL 31 psf Roof Trib Area TA 05W TW TA 16ft 2 SECTION PROPERTIES OF 4 x 3 x 1/4 ALUM TEE (6005 -T5) Sheet A2 I 2.7692 in l 0.5674•in Flange Dimensions S 1.0 in S 0.3782 in b 1.375•in r 1.281 in E 10100•ksi Lb S r Fbx11 13.2 ksi S =8105 r 0 A 1.6875•in ALLOWABLE DEFLECTIONS STRESSES Sheet 512, 513 Allowable Wind Load Stress (6005 -T5 Al Spec. No.11): 87000 j) Fbx11 if S 21 21•ksi if S 79 23.9•ksi 0124•ksi S, 2 ksi S Allowable Wind Load Stress (6005 -T5 Al. Spec. No.15): r b b 182 Fbx15 if 6.5 21 ksi if 10 27.3•ksi 0.93•ksi•— t t t b Fbx15 21 ksi Fb min(Fbx11 Fbx15) Fbx 13.2 ksi H pan 42in t 0.25•in t ksi 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs Border Protection Port Angeles, WA Allowable Wind Load Stress (6005 -T5 Al Spec. No. 11): L r 87000 Fbyll if S 21 21 ksi if S 79 23.9-ksi 0 124•ksi S, 2 ksi S Fbyn 194•ksi Allowable Wind Load Stress (6005 -T5 Al Spec. No. 15): b F by15 if 5 6.5 21 ksi if t Fbyls 21-ksi F b y min(Fby113 Fby15) CHECK FOR BENDING (DEAD SEISMIC STRONG AXIS1 M M fb 8 x Pww TW" Lcol 8 M 723.88 I bf ft f 8.69•ksi fbx 0.66 F bx Stud Column Is OK For Stress WIND LOAD ANALYSIS 5 36.69 Allowable WL Deflection: 5•pww TW Lcoi 4 y_max 384.E I Lcol Stud Column Is OK For Deflection Fb 19 4•ksi SHEET NO. C -17 PROJECT NO. 51090137.000 BY RV DATE 4/21/2009 b 10 27.3•ksi 0.93•ksi t t Ay_max 0.35•in Dy_allow 1 8 0 Dy_allow (158 in 182 b t ksi Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson SUBJECT. U.S. Customs SHEET NO. C -18 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK FOR AXIAL Column Axial Load: p ool TA (RDL) P c01 176•Ibf C 0.6 (Ends pinned and sidesway prevented) n 195 3.14 E Fe 2 F 777ksi Lb r n l f A f 01 ksi Allowable Axial Stress (6005 -T5 Al Spec. No. 7 8.1): Lb Lb Lb 51100 Fax7'= 1 0 0•ksi i 66 20.2 ksi 0 126 ksi ksi r r rx Lb J 2 b b b 1970ksi Fax8.1 if t 2.4 21ksi if 12 23.1ksi 0 787ksi t 2 (t) Fax if(Fax7 Fax8.1 Fax7 Fax8.1) Fax 15.58- ksi Fao Fax8.1 CHECK COMBINED STRESS f Cm fbx 0 41 Fax fa 1 F F bx e fa fbx 0.66 Fao Fbx 1.0 1.0 Stud Column Is OK For Combined Stress rx Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314.731 4712 www.larsonengr.com 5 Larson SUBJECT. U.S. Customs SHEET NO. C -19 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK FOR BENDING (DEAD SEISMIC WEAK AXIS) Mcant= 0.334kip ft Risa Output Sheet M -11 Mcant fby S F by f 10.6•ksi fby 0.548 1.0 OK CHECK FOR AXIAL Column Axial Load: Prisa 1.612kip See Risa Sheet M -18 I'col i'risa (RDL) TA C 0.6 (Ends pinned and sidesway prevented) n 1.95 3.14 E Fe 2 Lb r nu y P col fa A F 15.58•ksi F 18.77ksi CHECK COMBINED STRESS fa C m fby Fax fa t 1_ J F b Y F 0 45 1.0 fa fby =0.6 1.0 OK F Fb Stud Column Is OK For Combined Stress Stud Column Is OK For Stress F 777 ksi f 1.06•ksi Pcei 1.79•kip 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -20 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK FOR BENDING (DEAD 0.75 *0.7 *SEISMIC 0.75L STRONG AXIS) 0 75p TW Lcoi M M f S x 8 M 542.91•Ibf ft fbx 6.51•ksi fbx =049 1.0 OK F bx CHECK FOR AXIAL Column Axial Load: P ool TA (075RLL RDL) P ool 416•Ibf C 0.6 n 125 3.14 E Fe 2 Lb r Pcol fa A n F 15.58•ksi F 18.77 ksi CHECK COMBINED STRESS fa C m fby Fax fa 1— F Fby F (Ends pinned and sidesway prevented) F 777 ksi f 0.25•ksi 0.36 1.0 f fb =0.56 1.0 OK F Fb Stud Column Is OK For Combined Stress Stud Column Is OK For Stress 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com I O O SUBJECT. U.S. Customs SHEET NO. C Border Protection PROJECT NO. 51090137.000 t T Port Angeles, WA BY RV DATE 4/21/2009 CHECK MOMENT CONNECTION TO TOP TRACK Mcant 334•Ibf ft x'= 0.5.2in y'= 0.5.1.375in Mcant Y V 6x 4y Mcant X V Y 6x 4y Vfast V 2 V 2 1600•Ibf Vallow 2.5 Vfast 0.96 OK Val low V 349.21•Ibf V 507.94• I bf V fast 616.41.1bf Vail„ 640•Ibf THEREFORE USE (6)1/4 DRIVE RIVETS 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com Lood Diagram 8 P SUBJECT. U.S. Customs SHEET NO. C -22 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 27/8 "x27/8 "x1/4" ANGLE STUD Length of column: Unbraced Length: Trib Width Wind Load Roof Load Roof Trib Area Compression in Column from Strap Bracing in Tension: Number of Panels in Critical Direction: Height of Panel: Width of Panel: L col 104• i n Lb 47 in TW 24in p 11w 19.3.psf TRL 31 psf TA 0.5W TW NOpan 5 H pan 3.5-ft Wpan 3.2 ft Plat Lcol Load at each panel. P Pan 814.87 Ibf Pan NO H pan Pp an 0 atan 0 47.56•deg Wpan Compression in Column: C P pan tan(0) C 891.26•Ibf Column Axial Load: Pco11 TA TRL C Peon 1139.26•Ibf Column Axial Load from Risa Sheet M -17 Pco12= 1.124.kip TA TRL Pc012 1.37 kip Column Axial Load: Pcol max(Pco11 Pco12) Pcol 1.37 kip SECTION PROPERTIES OF 2 7/8 x 2 7/8 x 1/4 ALUM ANGLE (6005 -T5) Sheet A3 I 1.089 in I 1.089•in S 0.528•in S 0.528.in b 2.625-in r 0.89•in r 0.89•in t 0.25•in E 10100•ksi A 1.375•in Flange Dimensions 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs Border Protection Port Angeles, WA ALLOWABLE DEFLECTIONS STRESSES Sheet 512.613 Allowable Wind Load Stress (6005 -T5 Al Spec. No.11): Lb r S 52.81 SHEET NO. C -23 PROJECT NO. 51090137.000 BY RV DATE 4/21/2009 87000 Fbx11 if S .5 21 21 ksi if S 579 23.9.ksi 0124•ksi S 2 ksi S Fbx11 174•ksi Allowable Wind Load Stress (6005 -T5 Al Spec. No.15): b (b b 182 Fbx15 if 6.5 21 ksi if 5. 10 273•ks1 0.93•ksi ksi t t t b t 1) Fbx15 173- ksi Fbx'= min(Fb11 Fbx15) Fbx 17.3•ksi Allowable Wind Load Stress (6005 -T5 Al Spec. No.11): Lb r b Fb if t 6.5 21 Fbyi5 17.3•ksi F min(Fby11 F by15) S=52.81 87000 Fbyl1 if S 5. 21 21 ksi if S 79 23 ksi 0124• ksi S 2 ksi S F by11 174 ksi Allowable Wind Load Stress (6005 -T5 Al Spec. No.15): b b 182 ksi if 5.10 27.3•ksi 0.93•ksi•— b t t Fb 17.3-ksi t ksi 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -24 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 CHECK FOR BENDING M M fb S, fbx =047 F bx Pww n'`�' Lcol f 8.23•ksi Stud Column Is OK For Stress WIND LOAD ANALYSIS Allowable WL Deflection: 5.p„, TW L Dy_max 384.E I Lcol �y_allow 180 Stud Column Is OK For Deflection Mcant 0198kip ft RISA>outj t, 8 SHT' M -10' M 361.94•Ibf ft Mcant 198•Ibf ft Mcant fb S y f 4.5•ksi fby 0.26 F by Dy_max 0 44•in °y_allow 0.58•in Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com 5 Larson SUBJECT. U.S. Customs Border Protection Port Angeles, WA CHECK FOR AXIAL C m 0.6 n 1.95 3.14 E F i fa A Allowable Axial Stress (6005 -T5 Al Spec. No. 7 8.1): Fax7 if Lb r y l Fax8.1 if n Lb 0•ksi r Fax If(Fax7 Fax8.1 Fax7 Fax8.1) SHEET NO. C -25 PROJECT NO. 51090137.000 BY RV DATE 4/21/2009 (Ends pinned and sidesway prevented) F 18.31•ksi f 1 ksi Lb Lb 51100 66 20.2 ksi 0126•ksi• ksi rx rx b 2 b b b 1970ksi 2.4 21ksi if 12 23.1ksi 0 787ksi t t t 2 b Stud Column Is OK for Combined Stress t l F 13.55•ksi Fao Fax8.1 f C fb fa Cm fby —037 OK —0.24 OK F f Fax fa 1 Fb 1 Fb F F f fb fa fby 0.54 OK =0.33 OK Fao Fbx Fao Fby 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr.com MEM ENI Load Diagram SUBJECT. U.S. Customs SHEET NO. C -26 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 PLYWOOD FLOOR DECK DESIGN (Single Span Condition) Deck Span: Ldeck 34in Tributary Width: TW 12 in Total Floor Load: TFL 58•psf DECK SECTION PROPERTIES 3/4 OS5 Sheet 58 in 4 IxP 0 036 ft DEFLECTION ANALYSIS w TFL WS Ldeck 12 4 w• lbf E 1800000 2 i n 2 1 11 3 i n KS 0.232— ft I 3.613 ft lbf lbf Fbp 1650 —2 FSP 48-2 in in D y_max 921 6E I xP Ldeck Ay_allow 240 Deck Is OK for Deflection Dy_max 011 in Dy_allow 014•in ALLOWABLE UNIFORM LOAD BASED ON SENDING STRESS Sheet 510 [96•F b KS•(2) W Wb= 64•psf 2 L deck 12 Wb TFL Deck Is OK for Bending Stress ALLOWABLE UNIFORM LOAD BASED ON SHEAR STRESS Sheet 510 24.F I W 122 psf W TFL Deck Is OK for Shear Stress 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -27 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 Check 3" Insulated Aluminum Roof Panels Roof Snow Load SL 20•psf Max Wind Load WL 28.8•psf Roofspan W Roofspan 8ft MaxRoofLoad max(TRL WL MaxRoofLoad 31 psf Allowable Roof Panel Span From Allowable Span Table Max Allowable Span 9' 2' Sheet 56 Roofspan Max Allowable Span OK Use 3" x 0.024" Insulated Aluminum Roof Panels 5 Larson Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314.731 4712 www.larsonengr.com SUBJECT. U.S. Customs SHEET NO. C -28 Border Protection PROJECT NO. 51090137.000 Port Angeles, WA BY RV DATE 4/21/2009 C6x8.2 CHANNEL (FORKLIFT POCKETS) Building Weight: Weight 442•kip C6x8.2 Steel Channel Section Properties A 2.39in I 13.1in Z 5.16in Check Overall Channel Bending L =28in 101in Leant 101 in Lcant' Weight w'= 4 Leant w' M aPP 2 Lb Oft F y Z x Mall 1.67 Mapp Mall 0.5 1.0 OK Ax_allow 240 w 131.33•plf Mapp 4.65•kip•ft Mall 9.27 kip•ft CHECK DEFLECTION w L 1 Ax 384.E I x (5 24• Leant 2) Leant A x max w 2 4 E Ix (L 3 6• Lcant 2 L 3• Lcant 3 2 L c ant F 36ksi E 29000ksi C6x8.2 OK for bending at forklift pockets Ax allow 0.84 -In -0 01 in Ox_max Ox_max 0.58•1n OK For Defection 5 Larson RISA Model Analysis Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com Loads: BLC 1 Unit Load Results for LC 1, Unit Load 1k M5 BA Csl Larson Engineering Inc. RV 51090137 000 1 N 7A 7 U S Customs Border Protection Port Angeles WA ELEVATION B Apr 16 2009 at 8 37 AM ELEVATION B.r3d 1 Ll. wm[ Laoei N1 X In J 0 0 b 7 -4 tire 0 0 1 .1 04e =3: 3 1 N4 I 0 0 0 0 2.758e -4 4 N6 .326 .009" 0 0 p": 5.596e-4' 5 1 N7 0 0 0 0 0 6.896e -4 N8 .322 -.009 0. 0. 0 -5.301 e -4 3.762e -4 7 1 N7A 0 0 0 0 0 8 1 N8A .322 .01:2. 0 0 0 2.714e -4 Joint Deflections (Bv Combination) NA°2 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 37 AM Job Number 51090137 000 U S Customs Border Protection Port Angeles, WA Checked By 7 [inl X Rotati fradl Y Rotation fradl Z Rotation fradl RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION B r3d] Page 1 Nit L x 1k Loads: BLC 1, Unit Load Results for LC 1, Unit Load 11 co M E V A N 9 M15 Lo 2 d Csl Ai 13 Larson Engineering Inc. RV 51090137 000 5 N U S Customs Border Protection Minneapolis MN ELEVATION D N8 10 N8A 7 Apr 16 2009 at 8 44 AM ELEVATION D.r3d 1 1 N1 0 0 0 0 2.159e -3 2 .1 N3 .005 0 0 0 0 0 0 0 5.038e -4'. 1.01e-3 3 1 N4 4 1'. N6 1.529 -.003 0 0 0 1.479e -3 5 1 N7 0 0 0 0 0 2.667e -3 6 1 N8 1 528 -.008: 0 0 0 2241e -3.. 7 1 N7A .175 -.001 0 0 0 2.162e -2 N8A .122 -.006 0. 0 0 1,977e -2 1.234e -2 9 1 N9 1.488 -.003 0 0 0 10," 1 N1'0 1.409 -.008 0. 0 0 1 :595e -2. 11 1 N11 1.49 .005 0 0 0 -6.951e-3 12 -.1... N12 1.531' 0 0 0 0 7.471e -4, 13 1 N13 0 0 0 0 0 2.492e -4 Joint Deflections (Bv Combination) 411 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 45 AM Job Number 51090137 000 U S Customs Border Protection Minneapolis, MN Checked By Rotation frad RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION D r3d] Page 1 1 vak 0, 9 3 k N AL"IS I S C A1 1 17k Loads: BLC 2, Lateral Load Results for LC 2, Lateral Load M8 Larson Engineering Inc. RV 51090137 000 1 3 M9 M10 M11 M12 M33 M N 20 M30A 19 M32 7 4 14 o M34 M35 18 M31 15 Rep 22 M32A r 2 21 o U S Customs and Border Protection Port Angeles, WA ELEVATION A 13 24 23 6 10 12 Apr 16 2009 at 8 45 AM ELEVATION A.r3d Results for LC 2, Lateral Load Member z Bending Moments (k -ft) Larson Engineering Inc. RV 51090137 000 MMMMM lie Il• IE01 I.CC. I•••• I!:,..•. ROUES �U•, I... I•... 11...E 1•••, I•.•, I••0 I•., •1 IC' I. If u OW OM III NM MI III at Am SI a MR .i .iii AI as MO (..ii ,11.1 iii pU a I 1.1 11•111 /NM •111110•11 r..:�. neon a t EM.AI 02.'241 innm maw am /..1 I.'/•• 111. '/.111 VMu u• ��a 1+■1p1 1••N MN 111•111 =a art iii •ii RI ISM II•• MR MCI .a1 r/ t1. 111111 u Sal n 1.1 u ii n 11 11111E 11f .EIM, ••1•' :7 U S Customs and Border Protection Port Angeles, WA Apr 16 2009 at 8 51 AM ELEVATION A.r3d 1 M1 N1 N2 .902 .245 T Columns Column None gen Alum Default 2 M2 N3 N4 .001. 'T`Columns Column None. genr.Alurim` =G3efault 3 M3 N4 N16 T Columns Column None gen Alum Default 4" M4 N6 N17 T Columns Column None. gen_Alum' Default 5 M5 N8 N18 T Columns Column None gen Alum Default 6 MB N10 N11. T Columns. Column None gen_Alum' Default. 7 M7 N12 N13 T Columns Column None gen Alum Default 8.. M8:.,. N2 N6 L.Colurnns Column None gen 'Default::::: 9 M9 N5 N7 L Columns Column None gen Alum Default 1.0' M10 N7 N9 L Columns Column .None gen; :Defau 11 M11 N9 N11 L Columns Column None gen Alum Default 12 M12 N11 'N13 L Columns Column None <gen_Alum. Dfault. 13 M13 Ni N4 Strap Bracing None None gen Alum Default 1.4 M14 N3 N14 Strap Bracing None None gerCAlum Default 15 M15 N6 N9 Strap Bracing None None gen Alum Default .16 M16 N8 N21 Stra p Bracin 9 None ..'None. 00 Awl.' ..;Default. 17 M17 N10 N23 Strap Bracing None None gen_Alum Default 18:.1. M18 'N12: N21 S rap.Bracing:: None None-. genAium 'Default 19 M19 N10 N15 Strap Bracing None None gen Alum Default .20,...' M20 N6 N4 $tra B p racing. None None gen_Alum.: Default 21 M21 N3 N19 Strap Bracing None None gen Alum Default 1 T Columns 2 1/2' T Stud Column gen Alum .902 .245 .546 .001 L. Coltimn.. :2S18' Angle $f_. ,.Column.....gen_Alum ...949 .636 .2636 .001. 3 Strap Bracing RE0.0202X6 None gen Alum .121 .364 4.1212e -6 1.64499e -5 Joint Coordinates and Temperatures 1 3 5 7 8 9 1 0 11 12 13 14 15 16 17 19 20 21 22 23 24.. Ni .N2. N3 4 N5 N6�.... N7 N8 N9 N10 N11 ..N12 N13 N14 N15 N16 N17 N18- N19 .1420 N21 N22. N23 .N24 0 40.5 40.5 79.5 79.5 100.5. 100.5 139.5 139.5 168 168 79.5 100.5 40.5. 79.5 100.5 0 139.5 139.5 168 .168... 0 104 0 42 104 104 104 104 42 42 89 8 42 89 42 89 42 .:89..... 0 0 0 0 0 104 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 p M Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles, WA Checked By General Section Sets Label X[in] Member Primary Data Mater Y finl Z [in] RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] Temp [F] Detach From Dia J fin41 Material Desian Rules Page 8 22 M22. N8 N7 -.745 0 Strap Bracing None None gen_Aium "D efault. 23 M23 N16 N5 4 0'.. T Columns Column None genAlum Default, Default 24 M24 N1:7., N7 -.102 4 T. Columns Column None gen_A(uin. 25 M25 N18 N9 5 2 T Columns Column None gen Alum Default Default 26: M26 N16 N7 N12 .108.... Strap:Bracing .None None gen Aiurri 27 M27 N17 N5 -1.17 0 Strap Bracing None None gen_Alum Default .28 :M30. N4 N14 NC window frame Beam None. gen Conc..:' gen_Conc.. Typical Typical 29 M32 N16 N17 window frame Beam None 30 M30A N19 N4 window ,frarne Beam ,None gen_Conc. :Typical Typical Typical Typical 31 M31 N15 N21 window frame Beam None gen_Conc.. 32° M32A N21 N23 window frame Beam None genCohe... 33 M33 N20 N16 window frame Beam None gen_Conc.. 34. M34 'N18 .N22 window frame, Beam 'None gen_Conc..... gen_Conc.. Typical Typical Default 35 M35 N22 N24 window frame Beam None 36 M36 N N5 Strap Bracing" None. None gen_ Alurri 37 M37 N16 N2 Strap Bracing None None gen_Alum Default ..38 M38 N18 N11 Strap Bracing None None gen_Alum gen Alum Defaulf Default 39 M39 N22 N9 Strap Bracing None None 40;. M40 N22 N13: ;.Strap;8raciiig None None:'.. gen Default. gen_Alum Default 41 M41 N24 N11 Strap Bracing None None 1 2 N1 -.32 -.745 0 0 0 -.079 2 2 N3. -.233 .237 0 4 0'.. -.105 3 2 N6 .148 -.72 0 0 0 -.102 4 2 N8 -.37 .439 0 0 0 .075.. 5 2 N10 -.208 .021 0 0 0 -.1 6 2 N12 .108.... 768' 0 0 0 :101 7 2 Totals: -1.17 0 0 COG (in): NC NC NC Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles WA Checked By Member Primary Data (Continued) Joint Loads and Enforced Displacements (BLC 1 Unit Load) 1 N19 L X 1 Joint Label LDM Joint Loads and Enforced Displacements (BLC 2 Lateral Load) 1 N2 L X 1.17 Basic Load Cases 1 Unit Load Lateral Load None None ry 1 BLC Description Load Combinations Descri•tion SolvePD... SR... BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor 1=111.1M0 1 M_I_— 1 ORE Unit Load Lateral'Load Joint Reactions (By Combination) Joint Label L D M Direction Category X Gravity Y Gravi Z Gravity Joint Point Distributed Area (Me... Surface RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] M. 8 Rules Direction Magnitude[(k k -ft). (in rad). (k"s ^2 /i... Magnitude[(k.k -ft). (in rad) (k *s ^2 /i... MZ rk -ft Page 9 1 2 M1 1 -.314 .096 0 0 0 0 -.079 2. N2 2 -.314 :096. 0.. f3 0 0_ 3 N3 0 3 -.314 .146 0 0 0 0 .134 4 ....:042. :003 4 -.314 ..146 7:675e =3 0 0: Q :1.83 5 .004 0 5 .171 .253 0 0 0 0 6 2 M2 1. :607. :111. 2 0 0 0 ....'105... 7 0 0 2 .607 .111 0 0 0 -.009 8 .0 ;.0 3 .607 -.111' N9 0 0 0 .08 8` 9 2.51e 4 10 4 .607 -.111 0 0 0 0 .185 10 11 2 5 .607 .111 0' 0. 0 .282 11 2 M3 1 A76 .16 0 0 0 .282 12 2 .176 .16 0 0. 0'. 0 .125:. 13 N14 .036 3 .176 .16 0 0 0 0 .031 14 .004 4 .176.... ..16 7.834e -3 0 0..... 0 ..7.-.1B7. 15 .00.4 0 5 .176 .16 17 0 0 0 .344 16 2 M4 1 .53:1.. ,..105... 2 4....... 0 ....::0...._. __0;...... -:102 17 0. 0,....... 2 .531 -.105 0 0 0 .092 18. 0 7.703e -3 3: ,161 .142. N20 0 0 0. ..235,„. 19 4 :755e -3 21 4 .161 .142 .047 0 0 0 -.029 20 2 "2 2 5 .161... .142. 0 0 0 .293 21 2 M5 1 .938 -.094 0 0 0 0 .075 22 N24 2 ..938 -.094 0. 0. 0.. 0:..... .:1.... 23 3 .938 .149 0 0 0 .224 24 4 -938.. .149.. 0 0 0 -.053' 25 5 .938 .149 0 0 0 -.33 26 2 M6 1" .488 -.108 0 0 0' 27 2 .488 -.108 0 0 0 .135 28 3 012 .161 0 0 0 145.:. 1 2 Ni 0 0 0 0 0 0 2, N2 .693 .003 0 0.. 0 1 :653e -4 3 2 N3 0 0 0 0 0 0 4:.. 2 -N4 ....:042. :003 0 0 0 7:675e =3 5 2 N5 .589 .004 0 0 0 5.156e -4 N6 7 2 N7 .586 .003 0 0 0 6.643e -4 8 2 N8 0...... .0 ;.0 9 2 N9 .584 .01 0 0 0 2.51e 4 10 2 N10 0 0 0' 0.... 0 11 2 N11 .582 .002 0 0 0 1.174e -3 12. 2 N12 13 2 N13 .583 .005 0 0 0 8.519e -4 1`4 2 N14 .036 -.002 0: 0 0 7 065e -3 15 2 N15 .063 .004 0 0 0 7.834e -3 16 2 N16 .573' .00.4 0 0 0 4.67e 17 2 N17 .549 .003 0 0 0 5.666e -3 :18 2 4....... N18 ,57 .009.. 0 0. 0,....... 4.183e :3:; 19 2 N19 .059 .001 0 0 0 7.703e -3 20 2' N20 .572 :003' 0 0 0 4 :755e -3 21 2 N21 .047 .002 0 0 0 7.802e -3 2 "2 2 N22. :574 =.002. 0 0 ,.0 4�29e-3- 23 2 N23 .045 -.003 0 0 0 7.685e -3 24 2 N24 .57 :005..... 0. 0. 0. 4.488e -3: Joint Deflections (Bv Combination) M -9 Company Larson Engineering Inc Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles WA Checked By Y finl X Rotation fradl Y Rotation fradl Z Rotation fradl Member Section Forces (Bv Combination) Sec Axial v Shearfkl RISA -3D Version 8 0 2 [F \Calcs \Models \ELEVATION A.r3d] -ftl v -v Momentfk -..z -z Momentfk Page 10 29 4 -.012 .161 0 0 0 -.204 30 5: -.032 -.281 0 0 0 0 31 2 M7 1 .768. .108 0 0 0 -.101 32 2 .768 .108 0 0 Q ...134 33 3 .301 .159 0 0 0 .146 3 4 .4 301 159 0 0`... 0 198.. 35 5 .118 .275 0 0 0 36. ,M8. ....1 .962 0 37 2 .962 0 0 0 0 0 38 3` .962. 39 4 .962 0 0 0 0 0 40..._ 5 .962 41 2 M9 1 .858 .004 0 0 0 .01 42 2 .858' .004 0 0 0 .013' 43 3 .858 .004 0 0 0 .017 .44 4 .858 -.004. 0 0' 0 .021 45 5 .858 .004 0 0 0 .024 46. 2 M1"0.. 1 .722 .023. 0' D' 0- .005.. 47 2 .722 .023 0 0 0 .015 48- 3 .7222 ...023 0 0 -.024. 49 4 .722 .023 0 0 0 .034 50 5 ..722 .023 0 0.. 0 -.044 51 2 M11 1 .41 0 0 0 0 0 52 2 .41 53 3 .41 0 0 0 0 0 .41 55 5 .41 0 0 0 0 0 "56 2 M12 1 -.052 0 0 0 0. 0 57 2 -.052 0 0 0 0 0 :58".... 3 .0521. 59 4 -.052 0 0 0 0 0 '60..: 5 :052 0 0. 0' 61 2 M13 1 -.599 0 0 0 0 0 62 2 -:599 0. 0 63 3. .599 0 0 0 0 0 .6 4 4. -.599. 0 0... 0....... 0 65 5 -.599 0 0 0 0 0 56.:..2 M14 1 .-.505 0 0 0' 0.. 67 2 .505 0 0 0 0 0 68 3 .505 '0 0: 69 4 .505 0 0 0 0 0 ,70 5 -.505 71 2 M15 1 -1.276 0 0 0 0 0 72 2 -1.276 .0 73 3 1.276 0 0. 0 0 0 74 4 1276 0'. 0 0' 0 0........ 75 5 1.27 0 0 0 0 0 76'.. 2.. ..M16 1 -.682 0 0 0. 0 0;... 77 2 0 0 0 0 0 78 3 -.682 79 4 .682 0 0 0 0 0 80:'` 5 -.682 0 0 Q 0 0 81 2 M17 1 .563 0 0 0 0 0 ..;82... 2 _:563 0 0. 0 0 0. 83 3 -.563 0 0 0 0 0 4 -.563 .84. 85 5 .563 0 0 0 0 0 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles, WA Checked By Member Section Forces (By Combination) (Continued) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] -ftl v -v Momen z -z Momentfk Page 11 M m b 1-al./CI e er 86 2 M18 "1" 0 nl ,,o....... _._0... 0 :0 87 2 0 0 0 0 0 0 88 3 0. Q 0 0 0 0 89 4 0 0 0 0 0 0 90 5 0. 0 0 0 0 0 91 2 M19 1 0 0 0 0 0 '0 92 2 0 0 0 0 0 .0. 93 3 0 0 0 0 0 0 94. 4... 0 0 0 0 0 0':... .95 5 0 0 0 0 0 0 96 2 M20 1 0. 0. 0 0 0. 0 97 2 0 0 0 0 0 0 '98 3 0. 0 0 0.. 0 0.., 99 4 0 0 0 0 0 0 100, 5- 0 0 0 0 0 0 101 2 M21 1 0 0 0 0 0 0 102 2 0" 0 0. 0 0 "0. 103 3 0 0 0 0 0 0 104: 4 0. 0. 0 0 0. .0......: 105. 5 0 0 0 0 0 0 106 .2 M22 1 0 0 0 0 0„ 0 107 2 0 0 0 0 0 0 100,,:.. 3 0.. 0 0 0:.. 0.. 0..... 109 4 0 0 0 0 0 0 1 "10..._.... 5" 0 ..:...........0 0. 0 0,.: ...0: 111 2 M23 1 .139 -.283 0 0 03 112. 2 .139 -.283 :0 0 0 .2 113 3- .139 .283 0 0 0 .167 114;_ 4, .139 -283. 0 0 0 .079.. 115 5 139 .283 0 0 0 01 -116 :2 M24 1 .161 -.212 0- 0 0. -.293 117 2 .161 -.212 0 0 0 -.227 1 '18' 3 .161 -.212 0 0 0 -.161 119 4 .161 ..212 0 0 0 .095 '120 5 .161 .2"12. 0..... 0" 0:...- =.029 121 2 M25 1 1.09 .299 0 0 0 -.33 122 2 1.09 299 0 0 0: -.236: 123 3 1.09 .299 0 0 0 -.143 -.124 4 1.09 -.299 0 0 0" Q49 125 5 1.09 .299 0 0 0 .044 126. 2 M26 1: -:373 0 0 0 0 .A 127 2 .373 0 0 0 0 0 .128 3 -.373 0 0 0. 0 0: 129 4 -.373 0 0 0 0 0 130. 5 -.373 0 0. 0 0 0 131 2 M27 1 0 0 0 0 0 0 132 2 '0. 0 0 0 0. '0' 133 3 0 0 0 0 0 0 1`34" 4. 0 0 0 0 0: 0 135 5 0 0 0 0 0 0 136 2 .M30 1 .096` 0 0.. 0_ 0' 0 137 2 .096 0 0 0 0 0 ;138 3 ..096.. 0 0 0 0.. 0 139 4 .096 0 0 0 0 0 140. 5 .096 .0. Q. 0 0 0 141 2 M32 1 .354 0 0 0 0 0 :142 2 .354 0 0 0 0 O. M -kt Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles, WA Checked By Member Section Forces (Bv Combination) (Continued) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] -ftl v -v MomentFk z -z Moment(k Page 12 LL, M M -kt Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles, WA Checked By Member Section Forces (Bv Combination) (Continued) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] -ftl v -v MomentFk z -z Moment(k Page 12 143 3 .354 0 0 0 4. .354 0 0 0. .144.. 145 5 .354 0 0 0 -'146. 2 M30A 1 .242 147 2 .242 0 0 0 1:48 3 ..242 0 0 0 149 4 .242 0 0 0 :150 5....., 242 151 2 M31 1 .243 0 0 0 152. 2 .243 0 0 0 153 3 .243 0 0 0 1:54 4 .243 155 5 .243 0 0 0 '.156. 2 M32A 1 .049 -0 0 157 2 .049 0 0 0 158' 3 .049 159 4 .049 0 0 0 '160 5. .049 0 0 "0- 0. 161 2 M33 1 -.014 0 0 0 0 162 "2 -.014` 0...... 0 Q 0 163 3 .014 0 0 0 0 164 4. -.014 165 5 .014 0 0 0 0 166 2 M34 1 -.054 167 2 .054 0 0 0 0 168-'. 3 -:054 .0.. 0 0 Q 169 4 -.054 0 0 0 0 X 170 5 -.054 0 171 2 M35 1 .085 0 0 0 0 0 :172:- 2 .085 173 3 .085 0 0 0 0 0 174 4' :085 0 0 0 175 5 .085 0 0 0 0 0 1 2 M36 1 .411 0. 0 0 0 0' 177 2 .411 0 0 0 0 0 178' 3 -.411 0 0 0 0. 179 4 .411 0 0 0 0 0 "180 5 -.411 0 0 181 2 M37 1 .492 0 0 0 0 0 182 2 .492 0 0 0 0- 183 3 .492 0 0 0 0 4 .492. 0 0. ..v...... .184 185 5 .492 0 0 0 0 0 1.86 2 M38. 1= .423- 0 0 -0. 0' Q 187 2 .423 0 0 0 0 0 188." 3 -.423 0, 0 0.. Q 0, 189 4 -.423 0 0 0 0 0 190 5 -.423 191 2 M39 1 .384 0 0 0 0 0 192 2. .384 0 0 0 0. 0 193 3 .384 0 0 0 0 0 194 ,4 .384 0 0- .0 195 5 .384 0 0 0 0 0 ..2 M40 1 -253 0 0 .1'96 197 2 -.253 0 0 0 0 0 198 3 .253. 0 0 0 199 4 .253 0 0 0 0 0 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 �000J S Customs and Border Protection .Port Angeles WA Checked By Member Section Forces (Bv Combination) (Continued) Member Label RISA -3D Version 8 0 2 [F \Calcs \Models \ELEVATION A.r3d] -ftl v -v 9omentfk- Page 13 200 5 .253 201 2 M41 1 .394 0 0 0 0 0 202 2 .394. 203 3 .394 0 0 0 0 0 204: 4 .394. 0 0 0 205 5 .394 0 0 0 0 0 M -13 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 51 AM Job Number 51090137 000J S Customs and Border Protection Port Angeles WA Checked By Member Section Forces (Bv Combination) (Continued) -ftl v -v Momentfk z -z Moment RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION A.r3d] Page 14 Loads: BLC 2, Lateral Load Results for LC 2, Lateral Load Larson Engineering Inc. RV 1.36k M5 3 8A 1 U S Customs Border Protection Port Angeles, WA 51090137 000 ELEVATION B 8 7A 7 Apr 16 2009 at 8 57 AM ELEVATION B.r3d Results for LC 2, Lateral Load Member z Bending Moments (k -ft) Larson Engineering Inc. RV 51090137 000 0.1 UMW, MEM AI MAMEI ■O ■:91l ■Ilp ME W MEW MOM MOM MOM NOM WI \W1 MW ON ME M1 ■1 n ii li iu A MI MS MS 1111 OM U ia I KM I EAMON ii11•0• ii1HW 'API., S iLr7:IuPi Ifid1Y`OMM mum i•om moll alum AMM UMW ��IM/ MAW UR ■I MI W��I E WOW MMEM EMU MIMI NM EMS MEIN. MOWN EMS MIMEO ��E1 EMI ME11�1 MEW W M1 EMI MUM MI' MUM NW MM1 MEW NM MEM MEW MUM ME MEWS MIF ■NW1 SW MI 1 MEM MN NM MI MOM WI ■M1 ■•1 •I 1 1 1 MI 1 U S Customs Border Protection Port Angeles, WA Apr 16 2009 at 8 58 AM ELEVATION B.r3d 1 M1 N6 V N4 v M y- T Columns Column None gen_Alum Default 2 M2 N3 N1° 25 0 L Columns Column None gen_Alum'. Default 3 M5 N3 N8 N7 96 L Columns Column None gen Alum Default 4 M6 N1 N7 7 N7A L Columns Column None gen_Alum Default 5 M5A N8 N7 L Columns Column None gen_Alum Default 6 'M6A N1 N6 Strap Bracing.. None None gen_Alum Default.. 7 M7 N3 N4 Strap Bracing None None gen_Alum Default 8 6.48 N7A N8A L'Co{umns Column None 'den Aiurn. Default 9 M9 N4 N8A Strap Bracing None None gen_Alum Default 10.. M10, N7A N6" Strap Bracing' None None gen_Alum Default 11 M11 N7 N8A Str Br acing None None gen Alum Default 12 ,1\41 12. N7A N8 S tra p B racing None .None.. 9en Alurrt Default 1 N1 0 0 0 0 11111.11111111111 IOIIIIIIIIIMII .001 0.. 104 0. 0.. 3 N4 25 0 0 0 4 N6 None 104.. 0 0111111011111 5 N7 96 0 0 0 6 N8.. 96 104 0 0 7 N7A 72 8 104 0 0 1 T Columns 2 1/2' T Stud Column gen Alum .902 .245 .546 .001 2 L- Columns 2,5/8' Angle St.:. Column gen_Alum .949 .121 .636 .364 636. 4.1212e -6 ..001 1.64499e -5 3 Strap Bracing RE0.0202X6 None gen_Alum Company Larson Engineering Inc. Designer RV Job Number 51090137 000 U S. Customs Border Protection Port Angeles, WA Joint Coordinates and Temperatures Y Hint General Section Sets Basic Load Cases Load Combinations Member Primary Data Joint Label Joint Label Ma Joint Loads and Enforced Displacements (BLC 1 LDM Joint Loads and Enforced Displacements (BLC 2 LDM Unit Load) BLC Description Category X Gravity Y Gravity 2 Gravity Unit Load None Direction Lateral Load) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION B r3d] Direction M il.s Apr 16, 2009 859 AM Checked By etach From D in4 n Rules Magnitudef(k.k -ft). (in.rad). (k *s ^2 /i 1 N3 L X 1 Magnitude[(k.k -ft). in.rad). (k *s ^2 /i... 1 N3 L X 1.36 Joint Point Distributed Area (Me... Surface 1 2 Lateral Load None 1 1 Description SoIvePD... SR... BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor 1 Unit Load Lateral Load: Yes Yes 1 2 1 1 Page 1 1 LL, 2 IVICI IIUCI LQUCI M1 vcV 1 -.28 O- I'I 1.13 J v„a.u,,,,. -.024 0 0 0 -.101 u .79�. =:498 ..:.024`u: =0: >L „:a. 3 :i... -.a... .05._..., 3 0 0 0 3 0 1.13 -.024 0 0 0 .002 053`,< 507 d 0' _F _1 :13':, ..a .024: 0,_' 0 2 0; :r..... 5 0 0 5 1.13 -.024 0 0 0 .105 4.20g4;4 7 2 N7A 0 :076 .023'... :::..,ww 0 0: _....0; 5.116e -4 7 N8A .438, 2 -.017 -.076 :0 .023 0 3:69fie. =4 0 0 -.047 8..` a 3 5 .076 2 9 4 .076 -.076 .023 .0 0 a.. •Q7-��. ,..'_:_�023�, 0�,,.: 0 t�:5: 5, 0;..,... _...,.......0.�. 0 0 1024k .096 11 2 M5 1 1.33 .076 2, x,. 07 6: ,..........:0; 0 .0:;,_ 0 0: 0....... .056...._. -.005 13 3 1.056 .017 4 1 :.056 -102 0`... 0" 0 15 5 .261 .102 0 0 0 1' 085.' 0'r '0-;.: 0 102; 17 2 0 .085 0.. 0 .068 19 4 0,,._.... .098 0 0 -.088 20 5 .098: .....:..........._0......... 0:.:...... _...........0� 21 ........::......s.. 2 M5A 1 1.124 .025 0 0 0 .111 22"....... 2 ..:......,1. .025:., 0: 0 :.0 056`,..: 23 3 1.124 -.025 0 0 0 .001 24'... :...4 1.124,..,.. -.025: 0...... O,. t,. Or`<.. ,.._.._:054..,_... 25 5 1.124 .025 0 0 0 .108 <M6A .1....... 1 1=.10;1:.:. 27 2 1.101 0 0 0 0 0 -1:.1;01,.:, s- 5.,_.....0 .,_:....0 0; .................:0 0:. 29 4 -1.101 0 0 0 0 0 ,30:......... 5. =1.10f 31 2 M7 1 0 0 0 c- 33 3 0 0 0 0 :I 4 L 0 1 LL. 2 JUII11 LdUCJ N1 z u 1� 0 -.28 1 -1.232 1 �u i� 0 �.,,J 0 J 0 0 -9.767e-4 u .79�. =:498 1:50 3 2 N4 0 N7 0 0 0 0 0 3.751e -4 0 0 443._ <..,,a.._ 507 d 0' 00 5 2 N7 0 5 2 0 0 0 0 9.378e -4 A38',.. J 012 COG (in}: :NC 4.20g4;4 7 2 N7A 0 0 0 0 0 5.116e -4 N8A .438, -.017 0: :0 0 3:69fie. =4 1 Lk-. 2 Joint a e Ni -.28 1 -1.232 �0 0 u .79�. =:498 3 2 N7 .025 1.22 3 0 0 0 0 <..,,a.._ 507 d 0' 00 0 5 2 Totals. -1.36 0 0 COG (in}: :NC .._,NC a N.0 _x,_ 11 Joint Reactions (Bv Combination) N4 17 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 59 AM Job Number 51090137 000 U S Customs Border Protection Port Angeles, WA Checked By L b I Joint Deflections (Bv Combination) Member Section Forces (Bv Combination) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION B r -f rad -ftl y -y Momentfk <.z -z Momentfk 35 5 1,. Q-� 1. .028 0 0 0 ..121` 36 2 M8 37 2 .028 0 0 0 .06 38.. 3 1.612. .028. 0 0... 0.... 0:....... 39 4 1.612 .028 0 0 0 -.062 40 5; 1 1Z .028 ...............0 0 0 .123 41 2 M9 1 1.86 0 0 0 0 0 4. 2 43 3 1.862 0 0 0 0 0 ".:44 ...4 1.862.. 45 5 -1.862 0 0 0 0 0 46 2. M10.. 1 0 0 0 0 Q 0 47 2 0 0 0 0 0 0 48 3 0 0 0 0. 0 0' 49 4 0 0 0 0 0 0 50 5 0 0 0 0 51 2 M11 1 0 0 0 0 0 0 52 2 0 53 3 0 0 0 0 0 0 4. 55 5 0 0 0 0 0 0 56 2 M12 1.. -1.049 57 2 -1.049 0 0 0 0 0 58 3 1.049 59 4 1.049 0 0 0 0 0 60 5 -1.049 0`.... 0. 0...... 0. 0' Company Larson Engineering Inc. Apr 16, 2009 Designer RV 8 59 AM Job Number 51090137 000 U S Customs Border Protection Port Angeles, WA Checked By Member Section Forces (Bv Combination) (Continued) Torauefk -ftl v -v Momentfk z -z Momentfk- RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION B r3d] Page 3 S CON SF VAT l V S,) 1 17 Loads: BLC 2, Lateral Load Larson Engineering Inc. RV 51090137 000 N 6 IN 7A U S Custom and Border Protection Port Angeles, WA ELEVATION C M14 13 12 Apr 16 2009 at 9 AM ELEVATION C.r3d M45 o M 2 9 2, Q N N Vt7ZI 22 i' v bW £W "x 25 X20 M41 in 7 17 S CON SF VAT l V S,) 1 17 Loads: BLC 2, Lateral Load Larson Engineering Inc. RV 51090137 000 N 6 IN 7A U S Custom and Border Protection Port Angeles, WA ELEVATION C M14 13 12 Apr 16 2009 at 9 AM ELEVATION C.r3d Results for LC 2, Lateral Load Member z Bending Moments (k -ft) Larson Engineering Inc. RV 51090137 000 /I WIN Mtn I•■► ••v I••■■ n^C■10 ■1111 ■1111 1 •■■1 MEV 1.111 1.11 111■ 1111 U S Custom and Border Protection Port Angeles, WA 01 Apr 16 2009 at 9 00 AM ELEVATION C.r3d 1 M3 N6 N7 0 T Columns Column None gen_Alum Default 2.�•...- -M4' .�N7 N20= Columns =:ColutYrt r None." g e n_Alil"m? ��Defaultr u. 3 M5 N7A N23 48 T Columns Column None gen_Alum Default oluiiin Column None- =gen .�De #cult.. 5 M12 N8 N9A 48 L Columns Column None gen_Alum Default ...,..M13.. N9A.._.:.... N1:1..:.. L:.Columns. ,Column None°- ..v, :geri_AIum: Default 7 M14 N11 N13 87 L Columns Column None gen_Alum Default .8 :M16 Ni N N8:._ 134` 'Str racing;; ap:B ;None<. None den Alum° .'Defy ult 9 M17 N6 N17 134 Strap Bracing None None gen_Alum Default 10 N12 .'N1: 168':. 15,04,p::Bracingi None,_ None. gen_Aurri Default": 11 M19 N10 N13 168 Strap Bracing None None gen_Alum Default 1�2'.` �M22:._- N=12:._.� N9= 1- :87'... 0.:..: .a.. None_..... _9en_:Qlum.:, Default.- 13 M24 N7A N7 48 Strap Bracing None None gen_Alum Default 1.4,4 M26...... N6. N4:.. r 87,. :Strap Bracing. None, None... gen_Alum;,: s „':Default 15 M26 N10 N9A Strap Bracing None None gen_Alum Default 16 °M27 N20 N8 te r.... T Columns t r Column None en�`�Alum'-� 9...--.. :Default' 17 M30 N23 N9A T Columns Column None gen_Alum Default N9A r Stra B[acii p g, None n ...=No •.5_..• n g en; Alum F 4: Default 19 M35 N23 N8 Strap Bracing None None gen_Alum Default N:7_..<• :..._.,N >17 ...........:.::window:;.frame:; =Beam,';.....; None:, ,:.gen_Conc. t gen_Conc.. Typical 21 M45 N20 N23 window frame Beam None 22 -M _■10 N1'1- T Columns Column' None:... gen •Alum Default..,, 23 M23 N1 N4 L Columns Column None gen_Alum Default 24. r M M24A:. N ,,:N12 N13.- q, :L Columns;- Co umn' I None *It. VW efault D 1 N1 2 1/2' T Stud Column 0 0 0 0 2..' L:Columns 2 `5/8!' An le St:. 9. Column en_Alum v. 4.- 94 "9 636' ,`104 3 Strap Bracing RE0.0202X6 None 3 N6 .364 4.1212e -6 48 0 0 0 5 N8 48 104 0 0 .NM,. .,'t 87,,... ..0 a0:. ........w 0:,, .....5... .r, 7 N9A 87 104 0 0 N40 134` 0 0 0 9 N11 134 104 0 0 10 N12 168':. 0:...... 0- 0 11 N13 168 104 0 0 N17. :87'... ..:.:x:42 0.:..: .a.. Ox.. j 13 N20 48 89 0 0 1.4,4 :rN23 r 87,. ..59.,,,_..... v. �0.. ...........................s r ,z... 1 T Columns 2 1/2' T Stud Column gen Alum .245 .546 .001 2..' L:Columns 2 `5/8!' An le St:. 9. Column en_Alum v. 4.- 94 "9 636' ........:636...'::...: .w,.....0 "01'.•....,.....__..: 3 Strap Bracing RE0.0202X6 None qen Alum .121 .364 4.1212e -6 1.64499e -5 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000U S Custom and Border Protection Port Angeles, WA Checked By Joint Coordinates and Temperatures General Section Sets Shape Member Primary Data Joint Label Material Joint Loads and Enforced Displacements (BLC 1 Unit Load) L D RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION C r3d] Li M -21 Detach From Diap... in4 Material Design Rules Direction I Magnitudel(k,k -ft). (in.rad). (k *s ^2 /i.,. 1 1 N4 L Page 1 1 2 N1 0 0 0 0 0 0 0 .059 2'.... .235 0 0 0:. 0 1':3:13e -3.'r 3 2 N6 0 0 0 0 0 0 .003 2' N7. .024. "00.4.`.'.:.. ..w s' ,�r 5 2 N8 .229 .009 0 0 0 1.384e -4 6..M 2N_< ...N7A. _....w O..w <x ..._._..0-... 0 0.......- ..__........,0...... Y 0..._ 7 2 N9A .226 .002 0 0 0 1.672e -4 .8,x_.:,..2 -..:u N:10 0;1 2 0 .094 NC 9 2 N11 .223 -.009 0 0 0 3.194e -4 101, 2:.: N:12 7 2 .807 11 2 N13 .222 .008 0 0 0 6.297e -4 3 N17 018 001 0 O.A. 0�, -2 733e -3 13 2 N20 .219 .008 0 0 0 1.982e -3 212 002 0 0 .062 1 2 N1 M3 1 .807 -.035 0 0 0 .059 2'.... 0 -.027 2 2 .80:7' .035.... 0: 3 -0' N7A 0 .003 3 0 0 0 3 .807 .035 0 0 0 .034 ;057 5 2 N12 .8077 :035:. 0" 0`, s .0 .0'54' 5 Totals..... -1;17 5 .807 .035 0 0 7 2 0 .094 NC NC NC .053,,. =094 7 2 .807 .053 0 0 0 .042 y.. 8w._.... 3 3....:.x:.....:807 053 ..._..0' ...:0... 01'.,..... 9 4 .807 .053 0 0 0 .062 1 2 N1 .425 -.91 0 0 0 .059 2'.... 3 2 N7A -.352 -.57 0 0 0 -.032 N:10; .r. :239: ;057 5 2 N12 .014 .727 0 0 0 .062 6 2_t Totals..... -1;17 0 0 7 2 COG (in). NC NC NC Company Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000U S Custom and Border Protection Port Angeles, WA Checked By Joint Loads and Enforced Displacements (BLC 2 Lateral Load) 1 N4 L X 1.17 Basic Load Cases BLC Description Joint Label L D M Direction Magnitude[(k k -ft) (in rad) (k *s ^2 /i 1 Unit Load ateral:Load None ty ty 1 Load Combinations Description SolvePD... SR... BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor BLC Factor 1 Unit Load Lateral Load Yes Yes: 1 2:,-: 1 Joint Reactions (Bv Combination) Category X Gravity Y Gravi Joint Deflections (Bv Combination) LC Joi Member Section Forces (Bv Combination) Z Gravi RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION C r3d] Joint Poin Distributed Area (Me Surface I�l 22 Z fk -ft ion (r l Z Rotation frad -ftl v -v Moment(k z -z Moment Page 2 m- 23 Compan Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000U S Custom and Border Protection Port Angeles WA Checked By Member Section Forces (Bv Combination) (Continued) Member Label Sec Axialrkl v Shearfkl z Shearfkl RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION C r3d] -ftl v -v Momentfk z -z Moment fk Page 3 .807. 053: 11 2 M5 1 .288 .036 0 0 0 .032. a 13 3 .099 .051 0 0 0 .084 4.: 051<. :0;..,..." .r.......0;r .,..r..- 0>r,....... r.,= :0';,i... 15 5 .099 .051 0 0 0 .106 ,16.4':..2 M11 1: 1.158. -:01'4 0';° 0 0 2 :045' 17 2 1.158 .014 0 0 0 -.031 1:. .014`. '0` 0r 01�7�� 19 4 1.158 .014 0 0 0 -.003 21 2 M12 1 .817 .01 0 0 0 -.012 .51 7 -:01 0:.; 0'.ww 0 V:: -:004 23 3 .817 .01 0 0 0 .004 :817 01., 0 0:: O ..,r,' 013: 25 5 .817 .01 0 0 0 .021 :003.: -..�0: F•,.. Y >0�...,: "qWF :0;, ....4 -.:00 27 2 .64 -.003 0 0 0 -.001 _.64 :.003:.......x, 0 ,..x,.... 0 0._.. :002' 29 4 .64 -.003 0 0 0 .005 30; 5-, :64 :003 0 .008 31 2 M14 1 .24 -.036 0 0 0 -.045 -036 0` 0 33 3 .24 .036 0 0 0 .005 �..4- 35 5 .24 -.036 0 0 0 .056 36:_; ry_.2 M16,., .4_<... „„,,.._.1._. .987 37 2 -.987 0 0 0 0 0 38` -:987 0' Or... .,Ow... 39 4 .987 0 0 0 0 0 987 ;0. �0 •:0�.'.. �0 =0�...- 41 2 M17 1 .258 0 0 25 r 43 3 .258 0 0 0 0 0 4 "4: z:• 4 :258 45 5 -.258 0 0 0 0 0 M15.. 1 -.942 47 2 .942 0 0 0 0 0 -:942 49 4 .942 0 0 0 0 0 50t ..r...._. .:5..:'.......:942 0 �0. 0: 0 51 2 M19 1 0 0 0 0 0 52 2'„ 127..., ;0 :'0''- 53 3 .727 0 0 0 0 0 `�0�` J t. 55 5 -.727 0 0 0 0 0 '1A22',;.. 1:., 0:.... „�0:..... =>f. .0. :0= •0 Os_.> 5 7 2 0 0 0 0 0 0 58 5 4 0 0 0 0 0 0 0 61 2 M24 1 0 0 0 0 0 0 63 3 0 0 0 0 0 0 65 5 0 0 0 0 0 0 M25 m- 23 Compan Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000U S Custom and Border Protection Port Angeles WA Checked By Member Section Forces (Bv Combination) (Continued) Member Label Sec Axialrkl v Shearfkl z Shearfkl RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION C r3d] -ftl v -v Momentfk z -z Moment fk Page 3 67 2 0 0 0 0 0 0 69 4 0 0 0 0 0 0 71 2 M26 1 0 0 0 0 0 .0 73 3 0 0 0 0 0 0 75 5 1 0 0 0 0 0 ,N/17`.. i x1 9T x073'.: 0 0' '0.. °x= F11=4'`..... 77 2 .9 .073 0 0 0 -.091 3 *;073: r. 79 4 .9 .073 0 0 0 -.046 81 2 M30 1 .099 -.064 0 0 0 -.106 .82. >,...:.....r,,,:..,:. ..2?_ "..:.099 83 3 .099 .064 0 0 0 -.066 .099:.... :064 0;......... 0. -:046, 85 5 .099 -.064 0 0 0 -.026 :86......2 M34; 1 .258" 0 0:�., �0:.... `.0'..........: 0,.. 87 2 .258 0 0 0 0 0 .258.. 89 4 .258 0 0 0 0 0 90. 5 25 8 „..r 0. t 0•...... 91 2 M35 1 0 0 0 0 0 0 93 3 0 0 0 0 0 0 95 5 0 0 0 0 0 0 96 r.,2 ,..::_,:M4`:1 :088`...... s .,......0_ ...,.0 0 0° 97 2 .088 0 0 0 0 0 _..5 x..,... 0: <,_.0:. 0:......," ..,........On.._. 99 4 .088 0 0 0 0 0 100: x5. 88 101 2 M45 1 .115 0 0 0 0 0 1:02.. :2 .1;15 0 0 0 ........<:.O:v 0.::.... 103 3 .115 0 0 0 0 0 104 4 .1:15 0 0.: 0.. 0... O 105 5 .115 0 0 0 0 0 :4,06_;; ;>'2' M22A .826. ..:01 "0'•" r ......`''0 0: x:057. 107 2 .826 .013 0 0 0 .029 '168 3 r :826. "013. :r:. 0 •0 0...._•,. :00 =1 109 4 .826 .013 0 0 0 .026 5 ....826. 111 2 M23 1 .014 .012 0 0 0 .059 �1.12�• .��:...,c. M2 :014 4:01Z- 1 x� Oz��.. �0. �>0 .:gin <033 113 3 .014 .012 0 0 0 .007 X1:14 <4.. =:01:4 :01:2 0`; 0 •0 :01'9; 115 5 .014 .012 0 0 0 -.045 M24'A. 1° ....:.....:727.. .-:01.4 0 r.0 ...0.,............._ :062 117 2 .727 .014 0 0 0 .033 ::118:.r 3 727.. .:01'4 0 0 0 :0 119 4 .727 .014 0 0 0 -.026 ?1,20 5 ..72T '0.14 0' 0 0 0 Member Section Forces (Bv Combination) (Continued) RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION C r3d] M -24 Company Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000U S Custom and Border Protection Port Angeles, WA Checked By -ftl v -v Moment z -z Moment Page 4 Loads: BLC 2, Lateral Load Results for LC 2, Lateral Load .292k Larson Engineering Inc. RV 51090137 000 11 a M M14 9 M15 t1 f�i, t13 5 U S Customs Border Protection Minneapolis, MN ELEVATION D 8 10 8A 7 Apr 16 2009 at 9 AM ELEVATION D.r3d Results for LC 2, Lateral Load Member z Bending Moments (k -ft) Larson Engineering Inc RV 51090137 000 K .I l 0 anal anal aal i so i u 0 U S Customs Border Protection Minneapolis MN Apr 16 2009 at 9 AM ELEVATION D.r3d 1 M1 N6 N4 0 .902 T Columns Column None gen Default 2 ,M2` N3 N1 N4 48 None,.... L'Colunins: Column :gen Alum "Default' 3 M5 N3 N8 0 L Columns Column None gen_Alum Default 4 _..M6. N1.. N7 96 104 L Columns Column.. None. :gen_Aluni ,Default. 5 M5A N8 N7 L Columns Column None gen_Alum Default M6A N4 "N8A 0 Strap Bracing None..:.. None. gen_Alum Default''„, 7 M7 N7 N7A 11 N11 Strap Bracing None None gen Alum Default M8. N9 N8. 0 0 Strap Bracing None None. gen_Alum' .Default 9 M9 N10 N6 Strap Bracing None None gen_Alum Default 10 M10" ,N11 N6. Strap Bracing Non None gen _Alum` Default 11 M11 N9 N3 Strap Bracing None None gen_Alum Default 12 "6/112 N11 N9. L Columns Column' None gen_Alum, Default 13 M13 N13 N12 L Columns Column None gen_Alum Default 14 I M14 N9 N10 window frame' Beam None gen. Cone., Typical Typical 15 M15 N7A N8A window frame Beam None gen_Conc.. 1 N1 0 0 0 .902 .245 2 N3 0 104. 2 518' Angle St.. Colu n en Alum 3 N4 48 0 0 0 RE0.0202X6 4 N6' 48 104 0 0 5 N7 96 0 0 0 6.: N8 96 104 0 a, 7 N7A 48 42 0 0 N8A 96 42 0 0, 9 N9 48 87 0 0 10 N10 96 87 0 d: 11 N11 0 87 0 0 12 ....N12 8.. 104 0 0 13 N13 8 0 0 0 1 T Columns 2 1/2' T Stud Column qen Alum .902 .245 .546 .001 2:...:L Columns 2 518' Angle St.. Colu n en Alum .949 .636 .636 .001.... 3 Strap Bracing RE0.0202X6 None qen Alum .121 .364 4.1212e -6 1.64499e -5 Company Larson Engineering Inc Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000 U S Customs Border Protection Minneapolis, MN Checked By Joint Coordinates and Temperatures General Section Sets Member Primary Data Basic Load Cases BLC Description Joint Label Joint Label Category X Gravi A in2l Joint Loads and Enforced Displacements (BLC 1 Unit Load) L D.M Joint Loads and Enforced Displacements (BLC 2 Lateral Load) LDM Y. Gravity Z Gravi RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION D r3d] Izz fin41 \A -Z1 Detach From Diap... J fin4 erial Design Rules Direction Magnitude[(k,k -ft), (in.rad). (k *s ^2 /i... 1 N3 L X 1 Direction Magnitude[(k,k -ft). in.rad), (k *s ^2 /i... X 1 N3 L .292 Joint Point Distributed Area (Me... Surface 1 Unit Load Lateral Load None None ty ty 1 Page 1 1 2 M1 1 0 .075 0 .2 0 0 2. 0 447. .002 .027 2... 3 2.. N4 .081 0 -.121 .0. 0 2.95e -4 0 .075 N6 .165,: 3 0, 0' 3 0 .081 2 .121 0 0 0 0 0 7.788e -4 .097 2...., x. ...446 4 0 .081 0. .07 0 0 N7 0 0 0 .105. 5 6.312e -3 8. 5 N$A .081 _.002 .07 0 .0 5774e43 0 2 N9 -.046 6 2 M2 1, 3.603e -3 -.083 .1 0� 0 0 0 ..008 7 N11 .435 2 0 -.167 0 .039 0 0 N12 0 0 0" -.103 8 -2.181e-4 13 3 N13 -.167 0 -:039 0 0 7.276e -5 0 .019:..... 9 4 .167 -.039 0 0 0 .066 10 5 -.167 -.039 0 0 0 .151:...' 11 2 M5 1 .13 .01 0 0 0 .008 12 2 .122. .006 Q 0 Q -:007 13 3 .122 .006 0 0 0 -.02 14 4 .084 -.003 0 0: 0 .013... 15 5 .084 -.003 0 0 0 .018 16 2:.. M6 1 0' -:335. .....Q 0. 0 :.1;51 17 2 0 .006 0 0 0 -.003 18 .019. 0 0... 0 .032 19 4 0 .019 0 0 0 -.006 20 5 0 .019:. Q 0.. 0 .043." 21 2 M5A 1 .09 .161 0 0 0 -.018 22 2 :09 .124 0 0 0 .163.... 1 2 N1 0 0 0 0 0 6.305e -4 -1.471e-4: 2 2. N3 447. .002 0. 0 0 3 2 N4 0 0 0 0 0 2.95e -4 N7 .075 N6 -446 0. 0, 0' 0 0 5 2 N7 0 0 0 0 0 7.788e -4 6 2...., N8 ...446 .002: 0 0 0. 6:54.4e. -4:. 7 2 N7 .051 0 0 0 0 6.312e -3 8. NC N$A 036 _.002 NC 0' 5774e43 9 2 N9 .435 0 0 0 0 3.603e -3 10 N10 41.1 -.002 0. 0 0 4 ;657e -3. 11 2 N11 .435 .001 0 0 0 2.03e -3 12 2 N12 .447 0 0" 0 4 -2.181e-4 13 2 N13 0 0 0 0 0 7.276e -5 1 2 N1 -.039 -.502 0 0 0 0 2' 2 N4 -.32 -.247 0 0 0 0 3 2 N7 .075 .412 0 0 0 0 4 2 N18 .008 :337 5 2 Totals. -.292 0 0 6 2 COG (in). NC NC NC Company Larson Engineering Inc. Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000 U S Customs Border Protection Minneapolis MN Checked By Load Combinations Description SoIvePD... SR... BLC Factor BLC Factor BLC Factor LC Factor BLC Factor BLC Factor BLC Factor BLC Factor 1 Unit Load Yes 1 1 1-4teral Load 1=111111111117111131111111111111111-_- -111111111111 Joint Reactions (Bv Combination) Joint Deflections (Bv Combination) Member Section Forces (By Combination) Z fkl RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION D r3d] k -ft M -23 MZ1k -ft ion fradl Z Rotation frad -ft] y -y Moment[k z -z Moment k-.. Page 2 23 3 .09 .124 0 0 0 .115 24 4 :43 .075. 25 5 .43 .075 0 0 0 -.043 �0;:.. �:0�, r 4411 27 2 .517 0 0 0 0 0 .:517,..,,',. 29 4 -.517 0 0........ 0 0 -.517 0 31 2 M7 1 0 0 0 0 0 33 3 0 0 0 0 0 0 ‘34 n, 4;,..: 0.- 0 Or< OY.. 0 0:.. 35 5 0 0 0 0 0 0 M8 0 37 2 -.26 0 0 0 0 X 39 4 .26 0 0 0 41 2 M9 1 0 0 0... 0 0 0 43 3 0 0 0 0 0 45 5 0 0 0 0 0 0 46 .a .x2 M10 xw1'.... :252: .......:0 0 :0, .0'......,........ s...:0..,_..,., 47 2 .252 0 0 0 0 0 3; :252 0 :0'..^‘ D 0... 0 49 4 51 2 M11 1 .278 0 0 0 0 0 52x- _;2: :x::278 ..........0 .:0.... ..0 " 0; .:,..:.0: 53 3 .278 0 0 0 0 0 54. 4 278&_... 55 5 .278 0 0 0 0 Q y z M12 :...:1 m. n x099; >0 s.0 =b... 57 2 .099 0 0 0 0 0 ;,.....,..09 59 4 .099 0 0 0 ._...v......,., 61 2 M13 1 .004 .008 0 0 0 .068 63 3 .004 .008 0 0 0 .034 0 ::0 ..v:. _...._ _.0 65 5 -.004 .008 0 0 0 0 66:.; 2.::....._ M14 ...1 :..M....:285. 0.., 67 2 .285 0 0 0 0 0 68x 3':. .......285 ,0 ................::'0 i 69 4 .285 0 0 0 0 0 :.70 ;5:......,,..... 285 u :.0.....v.. >0: r0° 0 ..0.....w..... 71 2 M15 M 1 0 0 0 0 0 .....191 .191.. 73 3 .191 0 0 0 0 0 74 4. 19.1..E .1'917 75 5 .191 0 0 0 0 0 Tv1 -Zq Company Larson Engineering Inc. .Apr 16, 2009 Designer RV 9 AM Job Number 51090137 000 U S Customs Border Protection Minneapolis MN Checked By Member Section Forces (By Combination) (Continued) Member Label Sr e Axialfkl v Shearfkl z S hear[k] -ft] v -z Moment RISA -3D Version 8 0.2 [F \Calcs \Models \ELEVATION D r3d] Page 3 Appendix A Larson Engineering, inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314 731 4710 Fax: 314 731 4712 www.larsonengr com Larson Section Properties Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com Larson Area Perimeter Sounding box Centroid. Moments of inertia Section Modulus ;Product of inertia Radii of gyration Principal moments SUBJECT 0 9492 10 5000 X -0 7257 18993 SHEET NO' f'I A PROJECT NO BY Y 1.8993 0.7b X 0.0000 Y 0 0000 X 0 6360 Y 0 6360 X 0,3349 Y 0 3349 XY 0 3791 X 0 8185 Y 0,8185 and X -Y directions about centroid I 0 2569 along [0,7071 0 7071] J 10150 along L -0 7071 0 7071] DATE OF t Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com Larson Centroid Area: Perimeter Bounding box SUBJECT Moments of inertia Product of inertia Radii of gyration Principal moments X41 v l y r 4 x3 x� 6.oas Tee SHEET NO. ift 2._ OF PROJECT NO BY 16875 14 0000 X -15000 15000 Y: -2 7639 12361 X 0 0000 Y 0 0000 X 2 7692 Y 0.5674 XY 0 0000 X 12810 Y 0 5799 and X -Y directions 0 DATE -Ty,. 0 792i i 3 /4 5 about centroid I 0 5674 along CO 0000 1.0000] J 2 7692 along C-1 0000 0 0000] Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis MO 63042 2429 314 731 4710 Fax: 314 731 4712 www.larsonengr.com Larson SUBJECT L 2 /8 x2%8 X Y4 Area: 1 3750 Perimeter 11 5000 Bounding box: X. —0 8111 2 0639 Y 2.0639 0 8111 Centroid: X. 0 0000 Y 0 0000 Moments of inertia X 1 0894 Y 10894 Product of inertia XY 0 6472 Rodii of gyration X 0 8901 Y 0 8901 Section Moduli: X. 0 525 Y 0 525 Principal moments and X —Y directions about centroid. I 0 4422 along [0 7071 0 7071] J: 1 7367 along -0 7071 0 7071] SHEET NO. A 3 PROJECT NO. BY DATE Appendix B Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314 731 4712 www.larsonengr.com Larson Technical Information Larson Engineering, 'Fin. 757 Phanom Di ac, S., i2 X 00 S Louis, 80 .,3042'_^ -55 14.731 4710 Fox' "14.7 '1 4712 .www.larsoneng.com SUBJECT. 1 Intermediate Toad values for other concrete strengths and embedments can be calculated by linear Interpolation. 2 Unless othaiwise noted, values drown are valid for the shear plane acting through either the anchor body or the anchor threads. 3 Values shown are for a shear plane through The anchor body. When the shear plane Is acting through the threads, reduce the shear value by 10% 4 Values shown are for a shear plane Through the anchor body. When the shear plane is acting through the threads, reduce The shear value by 12% 5 Values shown are for a shear plane thmugh the anchor body. When the shear plane is acting through the threads, reduce the shear value by 20% 6 Values shown are for a shear plane through the anchor body.When the shear plane is acting through the threads_ reduce the shear value by 7% 7 Values shown are for a shear plane through the anchor body.When the shear plane is acting through the threads, reduce the shear value by 27% SHEET NU. b ?orJEO.T n10. BY DATE Kw)k Bolt 3 Expa 8S Ob`4 Anchor 4 .5 Table 2 Carbon Steel Kwik Bolt 3 Allowable Loads in Uorrnal- Weight Concrete f 4000 psi (27.6 MPa) f 6000 psi (41 4 MPa) Shear' lb (kN) Anchor Diameter in. (mm) 1/4 (6.4) 3/8 (9.5) 1/2 (12.7) 5/8 (15.9) 314 (19.1) (25.4) Embedment Depth in. (mm) 11/8 (29) 300 (1.3) 2 (51) 635 (2.8) 3 (76) 755 (3.4) 1 -5/8 (41) 2 -1/2 (64) 3-1/2 (89) 2-1/4 (57) 3-1/2 (89) 4 -3/4 (121) 4 (102) 5 -1/2 (140) 730 (3.2) 1260 (5.6) 1460 1580 (6.5) (7. 1235 1865 1930 (8.6) 2135 (9.5) 3/4 (70) 1920 2 (8.5) 2660 (11.8) 3285 (14.6) 3 -1/4 (83) 2120 (9.4) 4 -3/4 (121) 3240 (14.4) 6-1/2 (165) 4535 (202) 4 -1/2 (114) 6 (152) 9 (229) ft, 2000 psi (13.8 MPa) f, 3000 psi (20.7 MPa) Shear' lb (kN) Tension Shear' lb (kN) Ib (14) Tension lb )d4) 3330 (14.8) 4930 (21.9) 6670 (29.7) 530 (2.4) 715 (3.2) 365 (1.6) 795 (3.5) 530 1135 (5.0) 910 1275 (4.0) (5.7). 1095 (4.9) 1420 (6.3) 1090 (4.8) 3020 (13.4) 4885 (21.7) 4090 (18.2) 5340 1555 (5,9) 1770 (7.9) 1450 (6.5) Tension lb (kN) 430 (1.9) B00 (3.6) 340 (3.7) 1850 (8.2) 1965 •(8.7) Shear' lb (kN) Tension lb (kN) 530 (2.4) 1460 (6.5) 2060 (9.2) ^150 (9.6) 1430 (6.4) 2300 1620 (10.2) (7,2) 2735 (12.2) 2185 (9.7) 2355 (10.5) 2750 (12.2) 2065 (92) 3020 (13.4) 3695 (16.4) 2425 (1D.8) 4260 (18.9) (23.8) 5660 (26.1) 7070 4050 (31 4) (18.0) 6000 9200 (26.7) (40.9) 7670 (34.1) 3029 (13.4) 3410 (15.2) 4885 (21.7) 4900 (21.8) 5340 (23.8) 7600 (33.8) 9200 (40.9) 2440 (10.9) 2575 (11.5) 2210 (9.8) 3385 (15.1) 4100 (18.2) 2730 (12.1) 5285 (23.5) 7185 (32) 4670 (20.8) 7070 (31 4) 8670 (38.6) 550 (2.4) 845 (3.8) 1975 (B.B) 3240 3020 (14.4) (13.4) 3620 (16.1) 4070 (18.1) 2830 (12.6) 4770 4885 (21.2) (21.7) 5325 (23.7) 6155 7325' (27 4) (32.6) 7005 (31.2) 5710 3785 (25.4) (16.8) 8140 5070 (36.2) (22.6) 8400 9200 (37 4) (40.9) 10670 (47.5) 530 1480' (5.5) 3020 (13.4) 4885 (21.7) 5710 (25.4) 7325' (32.6) 9200 (40.9) N` .hnH. om 1 ProductTechnlcal Gwde�2e06 227 Hilti Inc. (US)1- e00- 979�oon I vrnrvv. .hil: om ten espanol 1'90Q -a79 -5 I HIS tCznadat Corp.'I -600- 363 -4 B I wv+w. Typo of Stress TENSION, axial TENSION IN'BEAMS, extreme fiber, net section BEARINCa pe of Stress COMPRESSION IN COLUMNS, axial COMPRESSION IN COLUMN ELEMENTS, gross section Any tension member Flat elements In uniform tension Round or oval tubes Flat elements In bending In their own plane, symmetric shapes On rivets and bolts Type of Member or Element On flat surfaces and pins and on bolts In slotted holes All columns Type of Member or Element Flat elements supported on one edge columns buckling about a symmetry axis Flat elements supported an one edge columns not buckling about a symmetry axis Hat elements supported on both edges Flat elements supported on one edge and with stiffener on other edge Flat elements supported on both edges and with an lntermedlate stiffener Curved elements supported on both edges gross section net section E1- -1 FLI I1 b. 1 R 3, f��Jl l'T(1"J Sao. 3.4. 1 6 Sec. Allowable 3.4. Stress, S g S, 9.1 9.2 10 Allowable Stress 15 15 15 18 20 31 21 iF S, 15 15 :4ta 0 2.1 0.9 ,tt1 WhIte'bars apply to unwelded metal el; ia�l0��1�! �G' apRfy: �lPl��idl .d- �aifep�� ?r61�l�r�al�,. 14.2 -0.074 hiJr Table 2 -24 .AILILOWAI: V-E STRESSES FOR V3UVV-®VNGTYPE STRUCTURES For tubes with circumferential welds, Sections 3.4 10, 3.4 12, and 3.4 16.1 apply for R„/ t •c 20 Allowable. Stress, S S Sz i t j;0.0'IG..IrL/r 1r '1a1 16.1 0.456 bit 5:'p 0 Ir 1s 16.1 0.158 b/t 16.1 0.144 b/t 6063 -T6 Extrusions and Pipe see Part IA Section 3.4.9 1 '15.6 0,502 >I S sea Part IA Section 3.4.9.2 Allowable Stress, S S 74 51100 /(IdJi)a .10 12 .25 14 341; 39 81 120 /(bit) GG• /.(bit)' 1970 /(t? /t)L 1b70.I(b /r) i; 410 /(b /r) 'goo, /ib(t) .1. n; 3190 i( Ra 49b /r)4 3109 y 0 a rn 1 11 O n1 -1 in 0) 1 rri 0 Single web shapes 15 22 10.7 0.073 L lr 04 87000 I(L 141 Eiiriq i igr 14 roueL“'4* 4 1 1 lN 'I •:"..i.11, V- .1.qh. 'i 2 t l: ..i''T 1(11. /11 n i( .1i...1 .13,, Fth. Rh Round or oval tubes 12 INVIP 18 35 27.7 1.70 if R 102 Same as htt, ""V1 tr' ..4-'4'''' 260 I P PI)PD,m• GOMPFIESSJON IN BEAMS, extreme fiber gross section 1.-11--- 13 20 15 27.0 0431 t d Ivinr.7,0 "11)119TV'''''''' 8 :1 :..I.144... 0 35 35 .i 11400 Lb 1Ti TDT ryivcip i.' I!' l •I Solid rectangular and round sections 1 -1 0 lt i1Al i 6 AY. 2 14 15 130 16J- 0.140 2LS. 2400 4r, r r i r :V. 1.09 12 .-kli• s y .1. L,S„ Tubular shapes 1.. 44,-/ 20600 r 2L TittegaP,41' OA' 5J1101", g9.0ir rn 71:1411P4a li. i! S g 1 1 q! l1 'I .?,sqr 152 1(8/1) 1, 1 7 1.(44) COMPRESSION IN BEAM ELEMENTIn S., (element uniform compression), gross section b I 1 l Flat elements supported on one edge I I 15 15 7.2 19.0 0.541 bit •,7 'T•FRM,3 Avf:1!, •gt••§4.:•qiig.10/ •t;." i tli. 3p1.4sit.torim x ertf, ffl 1 I 15 23 19.0 0.170 bit 39 464 l(b11) Flat elements supported on both edges •,t L 40 038/J/( 1, :i i,t 'pl. .,24.7:, !go Curved elements supported on both e 16.1 10 1.6 16.5 0.093 I fTiTt r.....mv2- !vv ..r,,...• 4-e 6;11 1 1 9,1q51 Mat I' r -.1i, ;V 189 i: Q80 I 4Rdi )(1 3780 t 35 41 gt r.” yv J IA., 7 -41.1.; 5:1 1 .-iiil, r.y; q''00. A 1. t,. ,r' 35 1 i Flat elements supported on one edge and with stiffener on other edge 15.2 sea Part IA Section 3.4 16.2 b, 15.3 see Part IA Section 3.4.16.3 Fiat elements supported on both 4 edges and with an intermediate stiffener COMPRESSION IN•BEAM ELEMENTS', (element In bending In own plane) gross section Fiat elements sUpported on tension edge, -Li- ---1 17 la 2D 10 27.9 0.808 bit Aui-4-1,...-ri Tg 0 01,:hiti.r,,,u11,, r„ 27.9 0.155 bit 441 •Imi •i 'Ic)Og Os'r tilt...V.il 23 1, si 4 90 1.87 li 4930 1(b10 ..4.,:. .2 y; Ai ,41930..1(b/0 l• t 114 20 4 ..0 1. 0 4 63 compression edge free y Flat elements supported on bolh edges II, 1250 /(h/t) r ;t• tQT@. ,N.1/ 0....-1,..,'-nt 4 _OA d, Tad, 18 21 20 123 27.9 0.007 1 208 '91 r.y, )B a I 2910 1(8/1) Flat elements supported an both ed ges and with a longitudinal aliffener h 4/1 I''''''56l5% :-.n 0 4v 01 •j,';172 4 t' I't ft.?•-.1trl.11E 0)0 bit t `.ir h. f 3 ,..,c .,31 1. 1 :TP .t( I 1 6.5 39 11.0 0.059 tilt 77 4.1 ill 38700 /(h/Da SHEAR IN ELEMENTS, gross section Unstiffened flat elements supported on both edges .86700 (h 0 .t1n2';:6iA)lt; Ill\ 57 ,c:t ...1ilatd..4 o.crieV..tire' 11 6.5 8.5 78 d'I 53200 /(a./0° .:r;edO Stiffened flat elements supported on both edges ril 4, I, 1 •71i1 k r t eg9W0i01 6 r isi ii 0 de 0], -u :0 ni C I¢lfl: !!11111RIDI [1111 11!.I Ril Nominal Max Fastener Threads Thread Allowable 0.038 0.060 0.072 0.080 0.'100 0.125 0.156 0.188 0.250 0.312 0.375 0.438 0.500 0.563 0.625 0.688 0.750 Size per Inch Diameter Shear (Ibs) (In) ##6 18 0.1840 212 150 212 212 212 212 212 212 212 212 212 212 212 212 212 212 212 212 I! Et�1�� .oErEll!'ffEI:EtIi�LEIII'.li EI:�tK;�adEll IEFIEE[��E4LCll "lElElrt.F 1: l:�! fl ll�l.dl, l I: I l.E!�� .L111IJ�QI.I IL[��LiLEI :Il��Q11 III��,1 III: I4.. dl'CI'I 41ell 1:1 t1A011 i1.1gP4r11 lli dd.11 1 11 N411 I'IJa6d11: �tE•I #12 14 0.2160 366 311 366 366 366 366 366 366 366 1 366 1 366 366 1 366 366 1 66 1110011' 66 ,I iilt r,;:121111, 1 1 .1111I„.; 11 11riG 1t, 11t8 1111,[ 111 a I11rerlrtl1t �,t 1 l ill:,:.:., :.l;'12@0III'' f 2 r r.4V61 ;[.4a0 111:.(. �I.II LL al I,l V II fliii'i•p•I'I111LL I` i 11 II 1# 111I11� ,11.1I E1 !#'r?r11I 111i: 0ll IE 1 i 1 5/16 1'II 12 n 1 i'.tl 750 802 802 802 802 802 802 802 802 802 802 802 802 el.III 1111111 11:11.114141;111.141 Ial'li 4i8i'1i11 Ill: iiI:ll'N'N4'11111)I1IU1:I 11111 II'I'I lll 11!ifl 511IH•N'dµ11 II?1i( .d1 lull :�l';11'11i1(6 Il iN9�11.111i1 -1 111111 -1 '.'11111A1 X11 I1Fi'1. I IIII1 I. AAMA Table 23 Addendum Table 42 Aluminum-Strength 6063 -T6 Allowable Tension Equations Pullout Values• not shown for t 2/N unless tested 1'hI VI I'N!:S51PfnIt !I''i r5�rrnlnl ri i:v.>n:.irwuin Fy(psl) Fu(psl) 25000 30000 Allowable Shear Stress (psi) Fv= Tension /Fastener Pull -out Capacity 12,000 For 0.038' a t 5 2/N P (1 /3)(K)(Tr)(d)(l)(F /(3) K 0.580 for 0.038' s t <0.080' K 0,665 for 0.080' s t 5 2/N For 21N t <4/N P (113)t1.2`d "FV (4 /N t) 3.Z6`d`F `(t 21N)] For 4N s t s 0.3125' P (1/3)(0.9)( Tr)(d)(t)(F„) /(3) For 0.3125' s t P (t- 1 /N)`[TSA(I)]`Fv`N Base Metal Thickness (in) Max Fastener Threads TSA(I) Allowable 0.038 0.060 0.072 0.080 0.100 0125 0.156 0.188 0.250 0.312 0.375 0.438 0.500 0.563 0.625' 0.688 Size per inch Tension (Ibs) 1, l 102:. �Lr r 1, 10:N ;IIILI;' JJ y i IJJ F 7 .:�9. 367 1 3 7 `�'I 6'rlli I1I I i 6 7 •II '�!67I.Il 3 #k8 18 0.0100 367 I:lIJ•:J1li: il1 1111 LI. i,dLI 83 10 ll1 �;l 132 .R1 165 234 349 LJ.ai l I I'4 l 3667 111a0.111:1 LE:f,}��I:EJ. t llfl��ll !.uf) i1 367 367 :Clm ;�;ti rl E,l�l; dilk'til J11U.I 1 .a,1:1 Lll1lll aL1 i,ll 11 #12 14 0:0190 633 110 132 174 217 271 373 527 633 633 633 633 633 633 633 633 !I l:E: I 1 1 1 r i moo VIII off' �;.��,111�IIB�;11J Il:jd��lll 5 I!111 ll l ,...,..1 l lt tl :I0.. '•Itfl U I r ;2 01} I ltt li'il.i11:1 .:.,g,,... l:ll!.II;GI: II.r=tillltl Ct 11 l :ll..l I:II .,.I.,....,UJ lll...dll Nib ..-1 :,:..Jl 1I25Iom Lu �..IJ,1:1L 1}.11,l:: I l lI 6J3�1. 11od ..11l'GI: ..:I111J.1o.: ,Il I 1.l.i i. LCg: t!12I 668 1109 1388 1.386 1388 1388 '1388 1388 1388 Ed,1n :1� 1 /s., t111l'�Eliffi ti! 5/15 12 0.0380 80 1368 I 11eQ IH..,.. b'�1. 1 I iI .��b! Ilz�a�all'I'?ol6ai I'I�iIa�hll��0;�;�'1 l�n4�l Ilza;�'�I l IIIo!'o'Sgt !1'II°i! p69,1{I,I. ShearlFastener Bearing Capacity (Note: Values shown for round holes see Alum Design Manual for slotted) Base Metal Thickness (in) Allowable Bearing Equation (Fby_allow)(D)(t) Fby_allow comes from Table 5.1 1a of the 'Specifications for Aluminum Structures' Fifth Edition (1986) 0.750 367 633 Roll; '1388 1120661: ti 0 5 CD z 0 J rn Fby_allow (psi) 2 24000 AAMA Table 23 Addendum Table 42 Aluminum-Strength 6063 -T6 Allowable Tension Equations Pullout Values• not shown for t 2/N unless tested 1'hI VI I'N!:S51PfnIt !I''i r5�rrnlnl ri i:v.>n:.irwuin Fy(psl) Fu(psl) 25000 30000 Allowable Shear Stress (psi) Fv= Tension /Fastener Pull -out Capacity 12,000 For 0.038' a t 5 2/N P (1 /3)(K)(Tr)(d)(l)(F /(3) K 0.580 for 0.038' s t <0.080' K 0,665 for 0.080' s t 5 2/N For 21N t <4/N P (113)t1.2`d "FV (4 /N t) 3.Z6`d`F `(t 21N)] For 4N s t s 0.3125' P (1/3)(0.9)( Tr)(d)(t)(F„) /(3) For 0.3125' s t P (t- 1 /N)`[TSA(I)]`Fv`N Base Metal Thickness (in) Max Fastener Threads TSA(I) Allowable 0.038 0.060 0.072 0.080 0.100 0125 0.156 0.188 0.250 0.312 0.375 0.438 0.500 0.563 0.625' 0.688 Size per inch Tension (Ibs) 1, l 102:. �Lr r 1, 10:N ;IIILI;' JJ y i IJJ F 7 .:�9. 367 1 3 7 `�'I 6'rlli I1I I i 6 7 •II '�!67I.Il 3 #k8 18 0.0100 367 I:lIJ•:J1li: il1 1111 LI. i,dLI 83 10 ll1 �;l 132 .R1 165 234 349 LJ.ai l I I'4 l 3667 111a0.111:1 LE:f,}��I:EJ. t llfl��ll !.uf) i1 367 367 :Clm ;�;ti rl E,l�l; dilk'til J11U.I 1 .a,1:1 Lll1lll aL1 i,ll 11 #12 14 0:0190 633 110 132 174 217 271 373 527 633 633 633 633 633 633 633 633 !I l:E: I 1 1 1 r i moo VIII off' �;.��,111�IIB�;11J Il:jd��lll 5 I!111 ll l ,...,..1 l lt tl :I0.. '•Itfl U I r ;2 01} I ltt li'il.i11:1 .:.,g,,... l:ll!.II;GI: II.r=tillltl Ct 11 l :ll..l I:II .,.I.,....,UJ lll...dll Nib ..-1 :,:..Jl 1I25Iom Lu �..IJ,1:1L 1}.11,l:: I l lI 6J3�1. 11od ..11l'GI: ..:I111J.1o.: ,Il I 1.l.i i. LCg: t!12I 668 1109 1388 1.386 1388 1388 '1388 1388 1388 Ed,1n :1� 1 /s., t111l'�Eliffi ti! 5/15 12 0.0380 80 1368 I 11eQ IH..,.. b'�1. 1 I iI .��b! Ilz�a�all'I'?ol6ai I'I�iIa�hll��0;�;�'1 l�n4�l Ilza;�'�I l IIIo!'o'Sgt !1'II°i! p69,1{I,I. ShearlFastener Bearing Capacity (Note: Values shown for round holes see Alum Design Manual for slotted) Base Metal Thickness (in) Allowable Bearing Equation (Fby_allow)(D)(t) Fby_allow comes from Table 5.1 1a of the 'Specifications for Aluminum Structures' Fifth Edition (1986) 0.750 367 633 Roll; '1388 1120661: ti 0 5 CD z 0 J rn Aluminum Strength 6063 -T6 Fy(psi) 25000 Allowable Shear Stress (psi) Fv= 12,000 Threads per Inch Nominal Thread Diameter (in) Fu(psl) 30000 0.060 Base Metal Thickness (in) Fastener Size Threads per Inch TSA(I) Max Allowable Tension ,(Ibs) 0.038 0.060 0.072 0.080 0.100 0.125 0.156 0.188 0.250 0.312 0.375 0.438 0.500 0.563 0.625 0.688 0.750 #8 I.I t i i. i 4yl}�,,ttrr!! tL°ISWklkfk< #12 18 F• tr: 'r''''e E.F ��iEtlLEti 14 0.0100 rr u �r r1 0.0190 595 7 i r ttl tt »r tt:r t ��kFk[I: 1027 53 t� 'Will E:t. 83 i i Fr aaqq [iiL`ik!i:kli,i'�:14�� 110 100 „x.. f 132 132 4 ';al kt2t��?t! 174 165 :ffF1'i ",t':zf,: �t tFEh�t�'tt,t 217 234 r rr��9 �L�r1E I 271 349 F�. �:.f t{1k��{{rtI! ME F�tt1'LtFFI 373 465 F�QB a.s: AN IL �tF �_tt 527 595 gli "t• .:r73D_1 595 t f: 73 Mill .,1027 595 1 595 1 %I7'3D r 7:'.91): i 1 u ....sC l r,:,:..,.�:.:, '10271 1027 595 ''.I 3r�'� '7�� >.,,,T:w, ,..:.N, 1027 595 i :7� 1027 595 I. 7� .I 1027 595 I ;lln�a_, 1027 595 il,... SDI 1027 832 r, i ,,.,E E��! :E°LF[kFE� i 5/16 �ki' 31,8.;1,,, f� f s rb [b�e�4� ttlk� 12 TEL trn:: .[F 42� it ,I 'IT tr :SCr�!•Q 0.0380 ^•cd t I -.0 (J t E t g ft f, l? �t, �lU::3r':.�icFtsn6(!kkLnklF4l�F 2251 La Y[ 1:33�aH fr rp.�..5 „it! '�2'2�.t =;[I� r EL- q rti ,d. fCl!iQekEl! 'u.r r_ tr:...11: E Ir` �tE: R. -N p •ltr, 'I t. h. .;eG: I: p �'lF: $l {43k.t�l :.I p 60 �k�: Y1P F� ..I '96:3 "l kl!l. ti °L, 1109 ,l ii11331:1 C��._LL f' Dug '1547 i' f :,�8 7 5'::'228 ,.6 .rr rr. E �44f 1 i1. 8, '1� t_. (I:l 2251 1:3: ,�:.u": 2251 '1 :3 .9`.} .L 2251 5' Ikl A 4'' 2251 ;I, .9'3b✓' 344: t.!.::..t� 2251 3° i�355 668 i O2 I 1913 °e1t,':.,3Z 1938 :2.6.52; r3'12,'a ".�(a355 AAMA Table 24 Addendum Table 42 Allowable Tension Equations Pullout Values not shown for t 2/N unless tested For 0.038" 5 t 5 2/N P (1 /3)(K)(rr)(d)(t)(F /(3) K 0.560 for 0.038' 5 t 0.080' K 0.665 for 0.080' S t 5 2/N For 2/N t 4/N P (1/3)[1.2 *d *F„ *(4 /N t) 3.26 *d *F *(t- 2 /N)] For 4N 5 t 5 0.3125" P (1/3)(0.9)( rr)(d)(t)(F /(3) For 0.3125° 5 t P (t 1 /N) *[TSA(I)] *Fv *N Allowable Bearing Equation (Fby_allow)(D) t) Fby_allow comes from Table 5.1 16 of the 'Specifications for Aluminum Structures' Fifth Edition (1986) 14' Tension /Fastener Pull -out Capacity Shear /Fastener Bearing Capacity s shown for round holes, see Alum Design Manual for slotted M F I [U C -0 9 N .p (n d o 0 1 3 j N <D 0 0) CO u, c u' 2 N C7 y o 0 w 0 m to 0 co m 0 -n Fby_allow (psi) 24000 Base Metal Thickness (in) Fastener Size Threads per Inch Nominal Thread Diameter (in) Max Allowable Shear (Ibs) 0.038 0.060 0.072 0.080 0 100 0.125 0.156 0.188 0.250 0.312 0.375 0.438 0.500 0.563 0.625 0.688 0 750 #8 ui .its I F t tr: :Ws4'�k`kD4 %ird.: #12 18 'I'''[" •tt J �kFi4;l 14 0.1640 0.1640 'EM t�ik��0'tJ 0.2160 344 3t It;` kt t .t-.c: Ma ''}[i itra+.` `..L. 593 x td:� 4 14 -0 ;:k A'C UH+ I�r�„t sii�y 1300 t 150 'F. a .i. .0 tr, t 1.3 r:Ykkt,b t k,. :Ge:,c gc J t6rtY :kw,. :r qtr!.. -2:.. .::.::.:.:!'fi 236 a: 'I. :.k .4w .��TFA� 311 i i36 , ;ICE 28 I'' 1 -3��p t.,�Strr: 373 315 ,,t� .6" ;I t 6 N�h' 415 344 k? �.42'1s�: 344 EI .I Z�- UAL 593 E, 4 938 344 ��y 11; Lt r 593 ;F1776(ki 1170 "'qi': ..I40.:l 3 44 i .tkl,k:Fr Ip,��E a,. :4,7'i:",4ffi 593 1300 344 .r;q 42 '.k:I n. ..�:Cr 593 Ix: 't 1300 344 .u.: h: ':r' d�1:..,::: _....s 593 r ri e� ,t778i tl °,t.t..: 1300 Ili�9ti7�! 344 a eI 'x s.., -b:4. ;593 a. :N 'i i kt7{ 1� 1300 .,t �,I :1�37..,1A971 344 1 ,1 4 1.. kkkZ A 'kSW 593 I::� �'17� G; _i_.:.... 1300 344 :I.k: 4 1' ..�.„�t ;,ti,...;ll 593 i.il i.. 1300 r 3 11:9 7'` 344 42: 593 1300 :�,9 �Fj• 3. 344 u 21 593 �78'��_��` l_ 0 1300 1'� T I 3 344 n nni :ti 421 5 :776'! ...L 1300 7' ;.1;93. 344 .ji X121 ..t.:...... 59 3 I ti 1 776 :l:. .t.. 1300 :`p o p .3 It 518 ,cr.rv::..:t: //IIl4 kkikktkk.". uKi: 5/16 �It i1`:.e'� %8, r.: r tc •i, °k: :I 4.. N. ft sGv.. Kt 12 rpr r..• ::.rrY 1 D p 4�.. 4�-: Lt:[ I'€ 0.3125 :,cn:..: et %.q, �7 5 t1,F, r .I ,.I:43 :tJ: .,6 nitNll. I��.lr:;;l1 .,.,.ed!! ::I tt 80'�, j� .,xJ6 it r: ::1::., -i!i! .1. kt. `t, 750 ::19pRF['a11f125R 1' Il �8 I 1.1 '.'I ,1937, AAMA Table 24 Addendum Table 42 Allowable Tension Equations Pullout Values not shown for t 2/N unless tested For 0.038" 5 t 5 2/N P (1 /3)(K)(rr)(d)(t)(F /(3) K 0.560 for 0.038' 5 t 0.080' K 0.665 for 0.080' S t 5 2/N For 2/N t 4/N P (1/3)[1.2 *d *F„ *(4 /N t) 3.26 *d *F *(t- 2 /N)] For 4N 5 t 5 0.3125" P (1/3)(0.9)( rr)(d)(t)(F /(3) For 0.3125° 5 t P (t 1 /N) *[TSA(I)] *Fv *N Allowable Bearing Equation (Fby_allow)(D) t) Fby_allow comes from Table 5.1 16 of the 'Specifications for Aluminum Structures' Fifth Edition (1986) 14' Tension /Fastener Pull -out Capacity Shear /Fastener Bearing Capacity s shown for round holes, see Alum Design Manual for slotted M F I [U C -0 9 N .p (n d o 0 1 3 j N <D 0 0) CO u, c u' 2 N C7 y o 0 w 0 m to 0 co m 0 -n wee ow,. 3 TS DPW Allowable Span Table and Uplift Fastener Spacing WI Pres 3,0 Inch' 0.024" 1.6pcf EPS 0.024" A plied pllIl re Win Applied Downward Pressure for Design Spa I F nets 89010 Load Case ure 10 0 l Pans LI Load Sn w L d 1 psf 20 psf 20 psf 25 of 30 psf 35 psf 40 psf 95 psf 50 psf 55 psf 10 psf 16' 5" 55 11' 10 18 25 32 37 42 47 7" 10 psf 15 psf 15' 3" 5" 15 ps 20 psf 13' 75 4" 20 psf 25 psf 12' 4' 121-4• 4 25 psf 30 psf 11 5" 11' 6" 11' 6" 3 30 psf 35 psi' 43' 9" 10' 9' 10' 9" 3 35 psf 40 psf 9 -q 5 4 q -q q -q q -q 3 40 psf 45 psf 5' 4' e' 4' 8' 4" 5' 4' 0' 0 S 9 0 4 3 95 psf 50 psf 7' -6' T -6' 6' 7 6• -6 7 fi -6 7 6 fi 3" 50 psf 5S psf fi' -9" 6' -9" fi' -9' 6' 9" 6' -9' fi' 9' 6' -9" 6' 9" 6 -0 6 -9 3 1 55 psf Downward Wind Load (psf) Applied Roof Loads (Ma 'mum of Liv nd Snow Loads) (psf) Uve Loads Snow Loads 10 20 20 25 30 35 40 45 50 55 0 15 25 25 30 35 40 45 50 55 60 10 18 25 32 37 42 47 52 57 62 67 15 25 25 35 40 45 50 55 60 65 70 20 31 31 41 44 48 53 58 63 68 73 25 38 38 48 50 53 56 61 66 71 76 30 44 44 54 57 59 62 65 70 75 80 35 51 51 61 63 66 68 71 73 70 83 40 57 57 67 70 72 75 77 80 82 86 45 64 64 74 76 79 81 84 86 89 91 50 70 70 80 83 85 88 90 93 95 98 55 77 77 87 89 92 94 97 99 102 104 60 83 83 93 96 98 101 103 106 100 111 Expo ure Component Direction of Basic Wind Speed (MPH)(3 85 90 100 110 120 130 140 150 150 UBC Load B Roof System Upward 17 19 23 25 29 34 40 46 Downward 9 10 12 13 15 18 21 24 C Roo(Syslem Upward 20 23 28 30 35 42 40 55 Downward 10 12 14 15 18 21 25 29 D Roof System Upward 24 27 34 36 43 51 59 67 Downward 13 14 17 19 22 26 30 35 GOVERNING JURISDICTION BASIC WIND SPEED (MPH) IBC, IRC FBC 85 90 100 110 120 130 140 150 UBC 70 75 80 90 100 110 120 130 0 0 P0D6ES5n7Ml El6 NEEEN0 LICENCES CO sc WI sa 3 :0000 135 5 3009 m 15371 C m m W ;7911 eui 11 /01/07 51/11 /05 10/01/05 11/64/00 01/10/05 03/31/05 53/31/05 03/64/00 0100/05 01/30/03 01/30/55 0 /30/05 51/35 /00 00 /30/03 05/30/05 00 /30 /50 05/30/05 00/40/50 05/30/05 07/11/00 07/31/05 07/31/05 07/31/00 01/35 /00 11/31/00 103 aA Ill FA 01115 R- m 4555 53 oa 0005 11/01/00 11/31/00 11/34/05 11/31/05 10/31/00 103 11/31/55 11/31/05 11/31/00 01/31/09 04/01/59 00/35/50 60/03/30 00/31/00 09/39/09 10/31/09 10/31/00 72/34/09 11/31/00 11 /31/09 11/31/09 12/31/09 G 531 19/31/10 11M5m 1/04/0 STEP I DEFINE DESIGN PARAMETERS A. CONTACT LOCAL JURISDICTION FOR ALL PARAMETERS B. DEFINE GOVERNING DESIGN CODE SELECT ONE 1. UNIFORM BUILDING CODE (UBC) 2. INTERNATIONAL BUILDING CODE (IBC) 3. INTERNATIONAL RESIDENTIAL CODE (IRC) 4. FLORIDA BUILDING CODE (FBC) 5. OTHER C. DEFINE BASIC WIND SPEED (MPH) SELECT ONE 1. IBC, IRC 8 FBC WIND SPEEDS ARE FOR 3 -SEC GUST SPEED 2. UBC WIND SPEEDS ARE FOR FASTEST MILE D. DEFINE 'BASIC' DESIGN ROOF LOAD 1. PATIO LIVE LOAD SELECT ONE a. 10 PSF b. 20 PSF 2, ROOF SNOW LOAD SELECT ONE 0 PSF b. 10 PSF 20 PSF d. 30 PSF 40 PSF f. 50 PSF 0. 55 PSF E. DEFINE EXPOSURE CATEGORY SELECT ONE 1. EXPOSURE B 2. EXPOSURE C 3. EXPOSURE 0 NOTE, NOT REQUIRED FOR UBC JURISDICTIONS STEP II DETERMINE APPLIED' LOADS A. SELECT APPROPRIATE TABLE BASED ON GOVERNING CODE. USE ASCE 7 -02 FOR FBC. B. LOCATE APPROPRIATE COLUMN FOR BASIC WIND SPEED. C. LOCATE APPROPRIATE SECTION FOR WIND EXPOSURE, COMPONENT AND DIRECTION OF APPLIED LOAD D. THE NUMBER AT THE INTERSECTION OF THE APPROPRIATE ROWS AND COLUMN ARE THE DESIGN UPWARD 8 DOWNWARD WIND LOADS. E. ENTER DESIGN PRESSURES BELOW 1. ROOF LIVE LOAD (LL) 2. ROOF SNOW LOAD (SL) 3. ROOF WIND LOAD UPWARD (WLup) 4. ROOF WIND LOAD DOWNWARD (WI...) STEP II (CONTINUED1 IBC,1136 and ASCE 7 Applied' Vertical Wind Loads (1) FASTEST MILE WIND SPEED (2) UPLIFT PRESSURES MAY BE REDUCED BY 25 PERCENT FOR ENCLOSURES LESS THAN OR EQUAL TO 10 FEET (3) 3- SECOND GUST SPEED F DETERMINE APPUED DOWNWARD ROOF LOAD: 1. LOCATED APPROPRIATE TABLE FOR ROOF DEAD LOAD (DL). USE DL 2 PSF FOR COVERS WITHOUT ROOFING. USE DL 5 PSF FOR COVERS WITH UP TO 3 PSF ROOFING. 2. LOCATE APPROPRIATE ROW FOR APPLIED WIND PRESSURE. 3. LOCATE APPROPRIATE COLUMN FOR APPUED ROOF LOAD. 4. THE NUMBER AT THE INTERSECTION OF THE APPROPRIATE ROW AND COLUMN 10 THE "APPLIED DOWNWARD ROOF PRESSURE' EXAMPLE: GIVEN: Applied Downward Roof Load DL 2 PSF LL 10 00F SL 20 PSF WI-DOWNWARD 10 PSF (IBC, 90 MPH EXP B) SOLUTION: THE 'APPLIED DOWNWARD ROOF LOAD' 15 22 PSF Downward Wind Load (psf) 10 20 25 30 35 40 45 50 55 60 Applied Roof Loads (Maximum of Liv and Snow Loads) (psf) Uve Loads 10 12 22 28 35 41 48 54 61 67 74 80 20 22 22 22 20 35 41 40 54 61 67 74 80 Snow Loads 20 22 29 32 38 45 51 58 64 71 77 84 90 25 27 34 37 41 47 54 60 67 73 80 86 93 30 32 39 42 45 50 56 83 69 76 82 89 95 35 37 44 47 50 53 59 85 72 78 85 91 98 40 42 49 52 55 58 62 68 74 81 87 94 100 45 47 54 57 60 63 67 70 77 83 90 96 103 50 52 59 62 65 68 72 75 79 88 92 99 105 55 57 64 67 70 73 77 80 83 8a 95 101 108 1. As ume Root Dead Load of 2 psf Applied Downward Roof Load 1. As ume Roof Dead Load of 5 psf 9010 IF NOT WET SIGNED WITH BLUE INK C L�II 0 a 5 w w m o d: n WET SIGNED DOCUMENT 91A5 EMBOSSED CORPORATE SEAL cE A 5 0 C.A1 v 0 Type of Stress TENSION axial TENSION IN BEAMS, extreme fiber net section BEARING Type of Stress COMPRESSION IN COLUMNS, axial COMPRESSION IN COLUMN ELEMENTS, gross section Type of Member or Element Any tension member gross section net section Flat elements In uniform tension Round or oval tubes Flat elements in bending in their own plane, symmetric shapes On rivets and bolts On flat surfaces and pins and on bolts In slotted holes Type of Member or Element 7 8 8.1 All columns Flat elements supported on one edge columns buckling about a symmetry axis IEH Flat elements supported on one edge columns not buckling about a symmetry axis L Ht Flat elements supported on both edges Ibi H Flat elements supported on one edge and with stiffener on other edge rte+ Flat elements supported on both edges and with an Intermediate stlffener Curved elements supported on both edges Sec. 3.4. 1 2 3 4 5 6 Sec. 3.4. 9 9.1 9.2 Allowable Stress 7 3.5; 10.5 10.5 10.5 12 13.5 21 13.5 Allowable Stress, S S 8.5 3.0 8.5 3.0 8.5 8.5 S' Allowable Stress, S <S <8 0 8.0 0.039 kL/r D ?.7 0.0077 kUr 2:3 3.1 0.048 bit' a.3 .51 !(bit) 3.8 9.5 0.252 bit 25 1970 /(b /t) 3.8 9.5 0.252 bit 2.3 12 3.0 7.3 6.8 Table 2 -3 ALLOWABLE STRESSES FOR UGLDR 4G TYPE STRUCTURES 3003 -H14 Sheet, Plate, Drawn Tube White bars apply to unwelded metal Shaded.bars apply to weld- affeoted:metal For tubes with circumferential welds, Sections 3 4 10 3,412, and 3 4 16 1 apply for R t 20 3.1 7 :.0:048 b /t 9.5 0.079 bit 3.1. 0015 bit see Part IA Section 3.4.9 1 see Part IA Section 3.4,9.2 9.3 0.305 4Rbit 5 138 Allowable Stress, 5 S 51100 1(kL/r) '236 51100 i(kUr) 19 89 /(bit) 43 60 104 420 3.0. .3 :9 3:2,ti b:073 1060• 3190 19.7,0 1(b /t) 282 /(bit) 163 /(b /t) 3190 R 6 )11 435it)2 Rbit '35 _arse% I Clly st�nuy w 757 °hansom Drive, Suite 200 St Louis. MO 63042 -2455 "14 731 4710 Fax: "14 731 4712 www.larsonengr.com .11UtiJ21.1. -1 ,.C. 0 13.0 GP DIF e0. a GiGUF =701,5 14.70 NFU= INC_UDO AL 00011GTA1 G16DS 125 THOSE 007591717:3! 11 •1-1 4 2 013 5.roOci I. see 5r 1 512=- .read er, :c sal. 0 ..m Opn I0r'; nIn Rona al Aopra:• A 1 13 iB /Q A I /2 16/Q Tti S°3- male _-!6- Area 6lomen1 e ?"IGrg Arta Moment Fedfre ,411 Weight 2.4. cr (ue -rdl at 01.750 Shea p1 1., She b...0o Modulo Candor 1, Nacs:iv Comical GRl go-' /F1 fm /GI rat �R'rCi �R Unscdd roels c /164.1 1.0 5.2. 01 0.02 0.112 24o 0.o50 0.001 0.023 3/0.13 1.1 0=78 1366 0.039 0.152 1110 0.7 0.002 0.023 15/13 112 -13 15 0_90 5.067 0.213 21 1.007 0.004 1056 50 9/2' L 5/0 13 0.319 ._10 0.71 0.37 .054 1385 5.01a 17.09 2.106 23/23 3r' -U 1 2 0115 32•. 1335 0.49. 150 0.520 0_'21 3.413 ,11.11 2.6 0.607 3309 01-40 0.478 .17 I. 50 0.172 0.3? 0 1 1.1 .0 0.342 111a /.,73 0959 1143 0.210 0.060 6523 1 -1/3 -0 el 0.E59 .J25 .0.67 1.04 60 .07 0.283 0.760 0 31 Sanded 9on&. 1/4-5 0.0 02o 0.96 0.008 1.054 2.550 0.348 0.001 0.009 1519 11/7 -0 1.0 0194 0.50 0.019 0.093 to 0.417 0.001 001. 150 310-5 1.1 01 1.307 0,027 0.125 ..00 052 0.053 0.03 0370- 15/32-5 1.4 0. 21 1. -7 0.066 0.214 .113 1304 0.006 0.067 1434 1,7,5 15 2-25 1.47 3.077 014 1.240 0.509 0007 753 19/3 1S. 054 0.11. 0113 5471 lie 0.023 9.137 2.261 515.0 1.8 0550 1470 0.12 033. .024. 1528 0.021 11.4 3.119 22.(21-0 03 0553 2....M 0.179 0389 6501 1.73- 0.050. can .1218 1/4.5 2 r 0563. 0394 0197 1412 670 2.001 0.063 .0185 .07 7/02 16 0-03a 2 a. .0270• 0515 8.050 2151 0.104 0394. 5070 _1 -5 ..1 ,0.817' 031 0.423• 0164 .3.302 3113 0.125 3.591 .031 I- 1 /6-1. 2:3 056' 2554 .5340= 0 :820• ..EP3' 11E0 0.271 X0744 0..20 roedo-Sanded Ponolo 314 5 15 ,7'01. 2198 .0993 0/71 -5152 1.159 1 1006 0.061 1.746 19(12- 5510-T 1.8" 5 01109 1S: 4421 0327 X45 135 0.013 0.125 a 3/ -T 12 11.379 2.710 0.193 0390- 5509 1.422 1032 0.219 .625 1.118.1 13 -'E2-839 4568 0.633 0.077 11.52 .0o 1 0143 821: ST5UCN7UlL 1 AND MARINE. 562^ P.ppld 'atonal 10 Face 0r0, Slrn55 Applied Perpendicular la Face Gra: Morainal Approx. I. A 1 75 15/0 A 1 d5 15/0 imclrnes imam 1;eravc Area Moment a edin, •o10ng Area Mammal E9edive Rolling C°9-1 weigh Thienrss [R =(dl 0f s--di Shear fm• //8j 51350 sneer 1pa) For Shea Inertia Modal= Goldoni Incrtie Moral= Constant 611 fn 7 0 1, 1 [a 0 /711 (R -BI Gn r &1 GR=/[t1 B Y DATE Urosanded Panes 571641 1.0 036 1.619 0.0752 0.11 2567 1.108 0.002 0.029 5/8-4 1.7 0371 '332. 0_041 0.195 1107 1.438 0.003 0.043 ,307 15/31 15 095 3.719 0.074 5.579 2157 3175 0.013 0.11a 1403 19/32 &5/0-11 1.0 0.707 1464 0.154 1437 5.605 1,41 0.045 0140 3.072 23/22- 33/431 23 0119 40.719 0.3. 03-59 1148 1013 016 0.199 3540 7/841 2a 0775 4388 03- 0.690 6348 3.513 0.131 145 4.73 1.71 15 •1.588. 5200 052 0. 1512 .651 0171 0.701 435 1 -1/0 -1 3.] 1.118_ au 0151 1.10 9901 2543 1400 1 7513 Sanded Panels 1/42 0.8 0342 1.280 0.012 0.003 1909 0 0.001 0.011 7723 1/32- 1_0 0365 1.200 5.526 0.13 7.364 0-751 0101 0.0 -.297 3/8-0 1.1 01 1.520 0.536 0.177 1.096 1.11 0.002 0.013 .927 15(22- 1_ 01.37' 1.9' 0.007 0.24 .107 2-160 0909 0.093 1405 1(3-5 15 054.9, .1347 0.075 0.271 457 0.014 1-171 2-725 11/2 -5 1.7 3.309: 3.013 0.110 0_230 030 1301 0.03 0.199 _911 783 1_9 07e .3.113 0.131 0.301 5_934 .751 0_045 0.011 4373 33(42.5 2.1 0.,47 '37.55 0.112 0.39 -6.109 3 0.085 5.339 -55 314- 1 0148 4.04 0.202 0.464 7529 5:"./4 0.108 0.413 4 7/64. 2, 0570• 395 0.408 0569 .7_539 4.473 0_179 0.577 .046 1S: .4-0 1.091 5 715 1479 0.027• 1978 5193 d_321 04711 6. 3 118'.0 0 1.121 .3 53 0.0 0.-55 8-841- 6 0.474 1.090 0377 ad1- 0ande6 cL: 1/2 15 :0343 2-4 0.03 -012 .511 15-420 0.030 0.162 1 19/3' &917.1 1.3 9.107 =127 0.1: 0.319- .300 2.799 0.050 0.259 3.193 23/ -33/4 7 2 2 .1229- 4.00. 0.701 0. 09 55. 3.625 0.075 3.3.5 .39 Larson Engineei no, inc. 5757 Phantom Drive Suite 200 5+ Louis, MO 53 042 -24 0 1= 7'1 4710 Fax. "1 7"1 471, www.lersonenor corn TABLE 3 ALLOWABLE STRESSES FOR PLYWOOD (psi) conforming to Volunrary Product Standard PS 1 95 tor Cansrrucrion and indueN l Plywood. Stresses are based an normal durerion.af load, and on common structural applications where panels are 24' or grater in width -or other use condition=_, sae Section 3.3 for modifications. Type of Stre,ss EGREME FIBER STRESS IN BENDING (F6) TENSION IN PLANE OF PUES (F Face Grain Parallel or Perpendicular ro Span (At 45' ro Face Grain Use 1/6 F COMPRESSION IN PLANE OF PLIES Parallel or Perpendicular to Face Grain (Ar45° to Face Grain Use 1 /3 F J SHEAR THROUGH THET(-iCKNE5S1 Parallel or Perpendicular to Face Grain (At 45' to Face Grain Use 2 F, ROLLING SHEAR (IN THE PLANE OF PUSS) Parallel or Perpendicular to Face Grain (Ai 45° to Face Grain Use 1 1/3 F,) SUBJECT. c b F, F, F SHItI NU. PROJECT in, DAT E Grade Stress L=_ve(( 9- Species Set 5.2 S -3 Group of Dry Face Ply Net Dry Wet Dry Only 1 14.430 2000 1190 1650 1650 3 980 1400 320 1200 1200 4 940 1330 720 1110 1110 1 970 1640 900 1540 1540 2 730• 1200 680 1100 1100 3 610 1060 580 990 990 d 610 1000 580 950 950 1 155 190 155 190 160 2 3 120 140 120 140 120 4 110 130 110 130 115 Marina Structural I All Othed'-1 63 75 63 75 44 53 44 53 48 1 70,000 90,000 70,000 90,000 82,000 60,000 75,000 60,000 75,000 68,000 3 50,000 60,000 50,000 60,000 55,000 4 45,000 50,000 45,000 50,000 45,000 MODULUS OF RIGIDITY (OR, SHEAR MODULUS Shear in Plane.Eerpendicular to Plies G (through the thickness) (At 45° to Face Grain Use 4G) BEARING (ON FACE) 1 210 340 210 340 340 Perpendicular to Plane of Plies F 2, 3 135 210 .135 210 210 4 105, 160 .105 160 160 MODULUS OF ELASTICITr fFI 1 1,500,000 1,800,000 1,500,000 1,800,000 1,800,000 BENDING IN PLANE OF PLIES 2 1,300,000 1,500,000 1,300,000 1,500,000 1,500,000 E 3 1 100,000 1,200,000 1 100,000 1,200,000 1,200,00 Face Grain Parallel or Perpendicularta Span. 4 900,000 1,000,000 900,000 1,000,000 1,000,000 (1) See pages 12.and -13 for Guide To qualify for sires level'S -1 gluelines nut be eaarior and only veneer arcds N, A, and C (neural, not repaired) are allowed in either fam. or bade For sires levels -2, gluelines rauth be exterior and ieneer grade C- Plugged and 0 ars allowed on the face or had Sires level 5-3 includes pp pan with interior or internediole (IMGI g(uelines. (2) Padua stresses 25% for 3 -idyer (4 -15r 5 =p1y) panels over 5/8` ibid Euch layups are poMible under 9S 1 95 For APA FATED SHEkkTH NG, APA BATED TURD- I -F_OOR UNDE'.LAYMEhFf, C -C Plugged and C -0 Plugged grades over 5/8' thrcuoh 3/4' thid.. (3) Sheer through the- thiclmss sreses for MARINE and SPECIAL 0 iE8OP, grades may be increased 33% See Section 3.2.1 for conccions under which Stre-SZCS for cater grades may beinmo;ad_ pert +ood fa__ ctrl is p r oerl to ;he support the three span condition is a_m!mzd for rapport spring up to and including 16 inch; the two span condition. LS cssnr3ed for face o airt pamilP7 r suppors when the support Taring is 20 or24 indt5, old the single -span condition is used for spans Ftata than 24 inches. Fote -Inrh- nominal framing is aswnedfor suppers spacing of 48 inchs or greeto: The equations presoued in this section are stmAard beam formulas alter to accept the mi r. rl mis noted 1 h forme lrt; are prO irled for computing tuniforat loads Olt plywood ova conventional framing They assume one way anion, rather thini two-way, or slab anion. The milking toads are assumed to be applied to falsized panels in standard sheathing type applica bons. LOeds are far the plywood onry, and in no way account for the design of the uf, Ling s,mports. tvr'-hrrconsid rotionshouldbe ev. en to rraantrated loads, in compliance with local Building codes and with published recumnendatians of APA The i n Wood Association. 4.I.I Uajui ni Loads Based on Be /cling Stress The following formulas shall be used for comparing loads based on allowable bendiug (Fb) For a single span: 96 Fb `r11 Lar s' Larson Engines- ng, nc. 757 Phantom Drive Suite 200 St Louis. MO 63042 455 314 731 =710 Fa:. 14 7 -1 vrww.larsonangr corn wb For a two -spy condidot 96Fb16 w1, w 111111 U 11111111111( w 1 f1 I111111111111111111111111W SUBJECT. For <Cm condidon: 120 F _{S vb ai w as Where. milli! I!twill 111111I111I t_ r J I t 1 wb umfom, load based on bending s (psa allowable be_ndhig cats (psi) Ctt t� o rcdvZ serdon modulus (in.f!t) span cent_�r to- r:Iltcr of suppor fin.) 4.12 Uniform Loads Based on Shear Stress The following forum! shall be used for coripudng loads bated on allowable shearsry Ct Span conditions are as shown in Section 4.1.1 and symbols are the same otherwise noted. For ashigle span: 24F, (Ib /O) For a two :pan condition: 192 F (Ib /Q) P2 For three -sprit condiion_ 20 F (Ib /Q) w r) Ns isiior n 10 based on shear scz s (psi) F allowable roll Step; (psi) lb /Q rolling sh r constant Cut'- P clesr span (in.) (canter-to- center span "anus support width) Fora single span db SHEET NO. PROJECT yin BY 1=, Uniiora L gods Based on D f a :on _equi, �,ier t The following fo_i_l. t l:: �h_ be used for cornnudag defleodon under unloim toad, or allowable loads based on deflecioa require_'naus. 4 13.1 Bolding Dr fle The following Eon 2S are used to compute deflection due (0 bending. For mmost Cses, as described in SPrrinn 3.4 =_single rzculadon s sailident, using these 2quarions and the effective moduli of elasttd:y listed in able 3. For ses wh?T� Sher ,-1 ll2caoa. S computed sena_ramly, and added to bending ddec- den to obrain meal deflection, E for rhP=e bending deflection eq iatious should be increased 1091 921.6 El For a rwo- pen condition: 2220 E For a three -span mnriirinn: w e. 3 4 1743 EI O:;IE Where; 6. bending delr -nnn Gam-) w u-ifotra Ioad (psi) E modulus of el sddty fps0 1 effective moment of inerda Can /Et) P duo span SW SW sn port n dth faaoT, equal to 0.23" for iw -inch nominal framing and 0.625 for four -inch nomoal 5 -ia:mg. For additional inforrnzdon on this factor sae APA P• Renoir Nu_ -tier 120. DIAMETER�T m (inch) PART RI P, 11+1ATS ANSI CM H (age) L> i i t4lA T� S +SAP. N IES) .3 2 k S 1 l 4-` 1 1150 0} 2.3l0 0) 4 0 8a l r0S I3 IS S0 (.2S) 3560 4 5 0 ZS- 106 -XX -13 WOO (676) 5340 (1 0) 6 41 ()I 32= C.Ei C .l3• EGOO 03251 0340 (2100) 4 6 (3 f6) 36- 106 -XX- l6 3000 (675) 4000 6 4 8 0 U1...108-X 30- l i0- XX- 16 59G) (133 a) (21X01 7100 (1600) 10680 (2400) 9 5 39- 112 -KC -16 115& (26600) 17 (40 001 0 t(7 Larson Engineering, Inc. 5757 Phantom Drive, Suite 200 St. Louis, MO 63042 -2455 314.731 4710 Fax: 314.731 4712 www.larsonengr.com Larson 1 CD SUBJECT SHEET NO 6) OF PROJECT NO. BY DATE Genarai Per arnence Guidelirtes The in ermotion shown on Ihlt page Was determined under ene sa cf taz4 monditiem s and is supplied as a cannel gulda an1y, Os card liana" Vary with eoch application Sfrr.gfh data giJan 1s for failur=e of the product or for sufficient deft oration i make °he product inoperoille No safety f¢afor has been applied I f i s recommended thu the user Test the produe for his. pariia applioatlom SOLJTHCO NO 38 ALUMINUM O R I E RIVETS t�iv�ts "firs tested et nominal drip in rd rte -d.st el 4 1 Pi 41 NOTE; 1 Above Yafui* era for vnivtroal he rlve e rife far lull beezlar head vnd cauntorsuhk head Pivata cta apAraxima ely sitai tar Figura& arm 1ha avoraga of 1ha data REF F 3OAU a(` 91. W &CZ PRN ae 0 ast REY E 11f5Jp3 aDS .DGsO ALuA111 3JI8 A0 1/4 R[VETS LJ c 0 0 0 to Type of Stress TENSION, axial TENSION IN BEAMS, extreme fiber, net suction BEARING Type of Stress COMPRESSION IN COLUMNS, axial COMPRESSION IN COLUMN ELEMENTS, gross section Any tension member Fiat elements In uniform tension Round or oval tubes On rivets and bolts Type of Member or Element Flat elements In bending In their own plane, symmetric shar5es On flat surfaces and pins and on bolts In slotted holes All columns Type of Member or Element Flat elements supported on one edge columns buckling about a symmetry axis Flat elements supported on one edge columns not buckling about s symmetry axis Flat elements supported on both edges Flat elements supported on one edge and with stiffener on other edge Hat elements eupported on both edges and with an Intermediate stiffener Curved elements supported on both edges gross section net section L _I H ti W b I' b. 11 Sec. 3.4. 1 Sec. 3.4. 6.1 9.1 9.2 10 Allowable Stress 19 21 19 24 28 39 26 Allowable Stress, S<S, 21 S, 0 gp i1Pt; 2.4 i {'F8 ar FB;t 21 7.6 Table 2 -2C ALLOWABLE STRESSES FOR SUI9LD NGTYPE STRUCTURES 6005 -T5 Extrusions up through 1.000 in thick 6105 -T5 Extrusions up through 0.500 in thick White bars apply to unwelded metal i.SljadeiN alt a to' Ida metal' ..PP..Iy W.. For tubes with circumferential welds, Sections 3.4 10, 3.4.12, and 3.4.16.1 apply for R,,/ t 20 Allowable Stress, S, <S <S 20.2 0.126 kilt 4 P9 .(t ilt l l 23.1 —0.787 b/t 21 2.4 23.1 0.787 bit 0624 23.1 —0.247 bit S„ 66 a '10 19. 12 33 82 see Part IA Suction 3.4.9.1 see Parl IA Section 3.4.9.2 Allowable Stress, S S 51100 1(1(1J0 5 .1 10 0" 154 /(b /l) ,iii ,.(bio 1970 /(b 1.970 /(I /t) 491 /(b /t) 271. /,(b /t) 0 1 R1 v 3 3 0 COMPRESSION! IN BEAMS, extreme fiber, gross section COMPRESSION IN BEAM ELEMENTS, (element In uniform compression), gross section COMPRESSION IN BEAM ELEMENTS, (element In bending In own plane), gross section pHEP■R IN ELEMENTS, gross section Tubular shapes. Single web shapes Bound or oval tubes So lid rectangular and round seclIons Flat elements supported on one edge Flat elements supported on one edge and with stiffener on other edge Flat elements supported on both edges and with an Intermediate stiffener 'Flat elements supported on both edges Curved elements supported on both edges Flat elements supported on tension edge, compression edge free Flat elements supported on both edges Flat elements supported on both edges and with a longltudihal stiffener Unstlflened flat elements supported on both edges Stiffened flat elements supported on both edges 1 T E Ft, -1: b I m b" __11 /Th_r b. 1 1 I b 11 12 13 14 '15 16 16.1 16.2 15.3 17 13 19 20 21 21 25 21 21 ...p 21 25 28 2B 28 Li "ir4.s 21 2D v- p q 4 .Q.. `1. 28 14 8 123 01.1P11[ 6.5 11, 21 7‘ '6P. Ida 110 35 'V8cOlc• 23,9 0.124 Ldr 71:Q5: V:: 39.3 -2.70 RA q.41=141t,.; d L 40.5 0.927 t cl ,L„ A 23.9 0.233 i i 2LL S° ,ti Pillaitti,%• 7,..111,9 is 11t• ed 006 l 2g •-.0. '1 I:i. 1P:4 r N1P 27.3 0.930 bit l• .1„ 0:3.-0 26 'bit 1 i 27.3 0.202 bit i7i riV'q `,11.PR9' 1?/f.4i 2.1 23.2 0.944 4Rdt 48 40.5 0.270 bit 1 I :11Nq ID10qq no: 40.5 0:117 bit go,. 18,7 15.8 -0.101 bit 26 hit 12 02 .4-- 1 ,172 18700.0 ./(1-s..110 79 81 1E14 29 50. '1680 0 33 02 141 {lad see Part IA SectIon 3.4 16.2 see Part IA Section 3.4 10.3 9.'1 40.5 1.41 bit 19 Ogg 70277 bit 75 173 64 66 .139 87000 ,PgPtior.1 '11400 d 1 Hci 23600 182 l(b11) /MO 550 i(bit) Same as gO. /OM 3780 4930 l(b11) 1520 1(1111) %.t.. :30'r /(ri)t) 3500 /(11/1) 2040 i(h11) 53200 /(e,11)'. 53200 38700 IthltY. (E3E1 0 0 '13