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I '--,--r----;- ,--- - r I I i - r--T ----1.- r--r---~- - , T-' -~ --; - -- r-'-i --;---.r--r I--~.'-. -~ r - I I I f- r--- I 12/25/2005 WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASCE 7-02 Description: Cronauer 4-Plex Analvsls by: Zenovic & Associates, December 2005 User Input Data Calculated Parameters Structure Type Building Importance Factor 1 Basic Wind Speed M 100 mph Non-Hurricane, Hurricane (v=85-100 mph) & Alaska Struc Category (I, II, III, or IV) II Table 6-2 Values Exposure (B, C, or D) C !Alpha = 9.500 Struc Nat Frequency (n1) 1 Hz Izg = 900.000 Slope of Roof (Theta) 33.69 Deg Type of Roof Gabled Kd (Directonality Factor) 0.85 Eave Height (Eht) 9.00 ft Ridge Height (RHt) 30.00 ft Mean Roof Height (Ht) 24.00 ft Width Perp. To Wind Dir (B) 78.00 ft At= 0.105 Width Para!. To Wind Dir (L) 48.00 ft Bt= 1.000 DamDina Ratio (beta) 0.01 Am= 0.154 Red values should be changed only through "Main Menu" Bm= 0.650 Calculated Parameters Cc= 0.200 Type of Structure 1= 500.00 ft HeighULeast Horizontal Dim I 0.50 Epsilon = 0.200 Flexible Structure No Zmin= 15.00 ft Gust Factor Category I: Rigid Structures - Simplified Method Gust1 IFor rigid structures (Nat Freq > 1 Hz) use 0.85 I 0.851 Gust Factor Category II: Rigid Structures - Complete Analysis Zm Zmin 15.00 ft Izm Cc * {33/z)^0.167 0.2281 Lzm 1*{zm/33)^Epsilon 427.06 ft Q {1/{1 +0.63*{{Min{B,L)+Ht)/Lzm)^0.63))^0.5 0.9109 Gust2 0.925*((1 +1.7*lzm*3.4*Q)/(1 +1.7*3.4*lzmD 0.8781 Gust Factor Summary G ISince this is not a flexible structure the lessor of Gust1 or Gust2 are used 0.85 Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com Page No. 1 of 5 WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASCE 7-02 6.5.12.2.1 Desian Wind Pressure - Buildinas of All Heiahts Elev Kz Kzt qz Pressure (Ib/ft^2) Windward Wall* ft Iblft^2 +GCpl -GCpl 30 0.98 1.00 21.37 10.86 18.20 24 0.94 1.00 20.39 10.20 17.54 20 0.90 1.00 19.63 9.67 17.02 15 0.85 1.00 18.47 8.89 16.23 Fia 6-5 Internal Pressure Coefficients for Buildinas. Gcpi Condition Gcpi Max + Max- Open Buildings 0.00 0.00 Partially Enclosed Buildings 0.55 -0.55 Enclosed BuildinQs 0.18 -0.18 Enclosed Buildings 0.18 -0.18 Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com 12/25/2005 Page NO.2 of 5 B WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASCE 7-02 Fiaure 6-6 - External Pressure Coefficients, CD Loads on Main Wind-Force Resisting Systems (Method 2) h z I L Variable Formula Value Units Kh 2.01 *(Htlzg)^(2/Alpha) 0.94 Kht Topographic factor (Fig 6-4) 1.00 Qh .00256*M^2*I*Kh*Kht*Kd 20.39 psf Khcc Comp & Clad: Table 6-3 Case 1 0.94 Qhcc .00256*V^2*I*Khcc*Kht*Kd 20.39 psf Wall Pressure Coefficients, Cp Surface I CD Windward Wall (See Fiaure 6.5.12.2.1 for Pressures) I 0.8 Roof Pressure Coefficients, Cp Roof Area (sQ. ft.) I 3,744 Reduction Factor I 0.80 Calculations for Wind Normal to 78 ft Face Cp Pressure (pst) 'Additional Runs may be req'd for other wind directions +GCpl -GCpl Leeward Walls (Wind Dir Normal to 78 ft wall) -0.50 -12.34 -5.00 Leeward Walls (Wind Dir Normal to 48 ft wall) . -0.38 -10.17 -2.83 Side Walls -0.70 -15.80 -8.46 Roof - Wind Normal to Ridge CTheta>=10) - for Wind Normal to 78 ft face Windward - Min Cp -0.20 -7.14 0.20 Windward - Max Cp 0.27 1.08 8.42 Leeward Normal to Ridge -0.60 -14.07 -6.73 Overhang Top (Windward) -0.20 -3.47 -3.47 Overhang Top (Leeward) -0.60 -10.40 -10.40 Overhang Bottom (Applicable on Windward only) 0:80 12.56 12.56 Roof - Wind Parallel to Ridge (All Theta) - for Wind Normal to 48 ft face Dist from Windward Edge: 0 ft to 48 ft - Max Cp -0.18 -6.79 0.55 Dist from Windward Edge: 0 ft to 12 ft - Min Cp -0.90 -19.27 -11.93 Dist from Windward Edge: 12 ft to 24 ft - Min Cp -0.90 -19.27 -11.93 Dist from Windward Edge: 24 ft to 48 ft - Min Cp -0.50 -12.34 -5.00 Dist from Windward Edge: > 48 ft -0.30 -8.87 -1.53 * Horizontal distance from windward edge Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com 12/25/2005 " 'r- i5 IJ, ./ Page NO.3 of 5 REINFORCED CONCRETE/MASONRY DESIGN - ALTERNATE METHOD Sheet _1_ of _1_ ZENOVIC AND ASSOCIATES Job No. 519 SOUTH PEABODY STREET, SUITE 22 Port Angeles, WA 98362 MATERIAL PROPERTIES: (Only for Nonnal Wt Concrete I Masonry without inspection) MATERIAL: c ( C or M ) fm I fe = 2500 psi Fs= 40 ksi E= 2880952 psi n= 10.1 MEMBER #' ,~ - DESCRIPTION: 6' Retaining Wall LOCATION: b= 24 in REINFORCING: SIZE: 4 d= 5.75 in NO. BARS: 1 As= 0.20 APPLIED MOMENT: 15120 Ib-in 19.3 k-ft Design Moment = 15120 Ib-in Stress Level: 133% DESIGN CONSTAN1 p= 0.001449 k= 0.156287 j = 0.9479045 STRESSES: fm I fe = 257.2 psi Fm I Fe = 1496 psi OK fs= 13.9 ksi Fs = 26.6 ksi OK MEMBER # I DESCRIPTION: 8' Retaining Wall LOCATION: b= 12 in REINFORCING: SIZE: 5 d= 5.75 in NO. BARS: 1 As = 0.31 APPLIED MOMENT: 35840 Ib-in 64 k-ft Design Moment = 35840 Ib-in Stress Level: 133% DESIGN CONSTAN1 p= 0.004493 k= 0.255861 j = 0.9147131 STRESSES: fm/fe= 772.0 psi Fm I Fe = 1496 psi OK fs= 22.0 ksi Fs= 26.6 ksi OK MEMBER # DESCRIPTION: 9' Braced Basement Wall LOCATION: b= 12 in REINFORCING: SIZE: 4 d= 5.75" in NO. BARS: 1 As = 0.20 APPLIED MOMENT: 1'9641.5 Ib-in 27.6 k-ft Design Moment = 19641.5 Ib-in Stress Level: 133% DESIGN CONSTAN1 p= 0.002899 k= 0.212564 j = 0.9291453 STRESSES: fm/fc= 501.3 psi Fm I Fe = 1496 psi OK fs= 18.4 ksi Fs= 26.6 ksi OK I I I 1 <<:I ~M.:..... TJ-Bea~6.20 Serial Number: 7004012143 USer. 2 12130120057:07:46 tW. Page 1 Engine Version: 6.20.16 Kitchen Bay Header 31/2" X 7 1/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED Member Slope: 0/12 Roof Slope0/12 J J I ~ L ~ I l' All dimensions are horizontal. Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 14' Primary Load Group - Snow (pst): 25.0 Live at 115 % duration, 17.0 Dead SUPPORTS: Input Width 1 Stud wall 3.50" 2 Stud wall 3.50" Bearing Length 1.50" 1.50" Vertical Reactions (Ibs) Live/Dead/UpliWT otal 1225/854/0/2079 1225/854/0/2079 Detail Other By Others By Others None None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1980 -1547 1848 Moment (Ft-Lbs) 3300 3300 3341 Live Load Defl (in) 0.087 0.222 Total Load Defl (in) 0.148 0.333 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 7' ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NOS for applicability of increase. -Analysis based on vertical loads only and assumes structural supports as noted in the input. Axial loads are not considered in this analysis. -Design assumes adequate continuous lateral support of the compression edge. Control Passed (84%) Passed (99%) Passed (U915) Passed (U539) Location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NOS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. PROJECT INFORMATION: Paul Cronauer Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settinqs\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - 05-066\Kitchen bay header.sms r- I t:)~ ...... - ~ ~ e ~ ~~~~ T.J.B81~6.20 Serial Number: 7004012143 User: 1 12129120056:06:21 PM Page I Engine Version: 6.20.16 Floor Joists 9 1/2" T JI@ 210 @ 16" olc THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED I ~ 0- 12' ". 1 ~ LOADS: Ana/ysi:> is for a Joist Member. Primal') Load Group - Residential -living Areas (pst): 40.0 live at 100 % duration, 20.0 Dead ~ Product Diagram is Conceptual. SUPPORTS: Input Bearing Vertical Reactions Detail Other Width Length (Ibs) Live/Dead/Uplift/T otal 1 8M wall 5.50" 4.25" 334/16710/501 A3:Rim 1 Ply 1 1/4" x 91/2" 0.8E TJ-Strand Rim Board Board@ 2 GIUBm or solid sawn lumber 5.13" 3.88" 333/166/0/499 A3:Rim 1 Ply 1 1/4" x 91/2" 0.8E T J-Strand Rim beam Board Board@ -cAllTICN, Reou""" bead"" length(s) ex<eed!he min;"um shown in"e TJ Buildets gu"e to"",'9" family ..._, """'",,",ons. limils, End supports, 3 1/2" . Intermediate supports, 3 1/2" with web stiffeners and 5 1/4" without web stiffeners. -See T J SPECIFIER'S 1 BUILDERS GUIDE for detai/(s): A3: Rim Board Shear (Ibs) Vertical Reaction (Ibs) Moment (Ft-lbs) live load Defl (in) Total Load Defl (in) T JPro Design -465 471 1388 0.130 0.195 44 Control 1330 1330 2860 0.295 0.589 30 Control Passed (35%) Passed (35%) Passed (49%) Passed (U999+) Passed (L/723) Passed Location Rt. end Span 1 under Floor loading Bearing 2 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading Span 1 -Deflection Criteria: STANDARD(ll:U480, Tl:U240). -Delle,"on ana'ys~ ~ based on "'mposile a_ W;.. Si",,1e leye, of 1!l132" Pane~ (20" Span Ra'",,) GLUED & NA'lED WOOd decking. -Bmci",,(lul' All "'mp....~n edges (top and tiottom) must tie 'moed at 4' 6" ole un'ess detailed othe_. Prope, altachmen' and POSition'ng of lateral bracing is required to achieve member stability. T J-Pro RAriNG SYSTEM -The TJ-Pro Rating Systam value provldas additional 000' """"""anee 'nfo..ation and ~ 00"'" on a GLUED & NAILED 1!l132" Panele (20" Span Rating) de"",,". The ",n'rom"" span is sUppoded !>y beams. Additiona' "'''''emOOns to,..~ m,,,,, indude, Ceiling _ None. A slructum' ana~s' of the deck has not been performed by the program. Comparison Value: 1.31 PROJECT 'NFORMA TION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'ROurke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone : (360) 417-5615 COpyright ~ 2005 by Trus Joist, a Weyerhaeuser Business TJI@ and TJ-Be~ are registered trademarks of Trus Joist. e-I Joist-,Pro. and TJ-Pro. are trademarks of Trus Joist. ~~~-- T J-Ileam<lll6.20 Serial Number. 7004012143 Uljer. 2 12/29120058:23:47 PM Page 1 Engine Version: 6.20.16 Upper Level Window Headers 2 Pes of 1 1/2" x 71/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED Member Slope: 0/12 Roof SIope0l12 J ~~ L J~ ~ 5. 6" ~ All dimensions are horizontal. Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 14' Primary Load Group - Snow (pst): 25.0 Live at 115 % duration, 17.0 Dead SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Other Width Length Live/Dead/UpliftIT otal 1 Trimmers 3.00" 1.50" 963/669/0/1631 By Others None 2 Trimmers 3.00" 1.50" 963/66910/1631 By Others None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1557 -1125 1584 Moment (Ft-Lbs) 2044 2044 2645 Live Load Defl (in) 0.039 0.175 Total Load Defl (in) 0.067 0.262 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top arid bottom) must be braced at 5' 6" ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NOS for applicability of increase. -Analysis based on vertical loads only and assumes structural supports as noted in the input. Axial loads are not considered in this analysis. -Analysis assumes continuous member. Lap joints, splices and finger joints significantly reduce member performance and have not been considered. -Design assumes adequate continuous lateral support of the compression edge. Control Passed (71%) Passed (77%) Passed (U999+) Passed (U947) location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (TJ). TJ warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NOS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. -Note: See T J SPECIFIER'S I BUILDER'S GUIDES for multiple ply connection. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - 05-066\Upper Level Window Headers.sms l t:) ~l~..... TJ-Beam<l!l6.20 Serial Number. 7004012143 uSer. 2 12/29120058:19:03 PM Page 1 Engine Version: 6.20.16 Garage Door Header 3 1/2" X 11 1/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J .,&. ff]~ , ~ 9' 9" .... L ~~ I ~ Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 6' Primary Load Group - Residential- Living Areas (pst): 40.0 Live at 100 % duration, 20.0 Dead Vertical Loads: Type Class Live Dead Location Application Comment Uniform(plt) Snow(1.15) 63.0 43.0 0 To 9' 9" Adds To Point(lbs) Snow(1.15) 125 210 l' 3" Point(lbs) Snow(1.15) 125 210 8' 6" SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail other Width Length Live/Dead/UpliftIT otal 1 Stud wall 3.50" 1.78" 1602/1050/0/2652 By Others None 2 Stud wall 3.50" 1.78" 1602/1050/0/2652 By Others None -See T J SPECIFIER'S / BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 2573 -2068 2868 Moment (Ft-Lbs) 5632 5632 6806 Live Load Defl (in) 0.085 0.314 Total Load Defl (in) 0.137 0.471 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 9' 9" olc unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. Control Passed (72%) Passed (83%) Passed (U999+) Passed (U826) Location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analYSis is in accordance with 1997 NDS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Drafting Solutions\Cronauer - OS-066\Garage Door Heacter.sms ~ '1iWe?!.... T J-BeamGll 6.20 Serial Number. 7004012143 User. 2 12/2912005 8: 13:25 PM Page 1 Engine Version: 6.20.16 Lower Level Window Headers 2 Pes of 1 1/2" x 71/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J ~~ '- J~ ~ 5.6.. ~ Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 6' 3" Primary Load Group - Residential- Living Areas (pst): 40.0 Live at 100 % duration, 20.0 Dead Vertical Loads: Type Class Live Dead Location Application Comment Uniform(plt) Floor(1.00) 0.0 90.0 0 To 5' 6" Adds To Wall Loading SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Other Width Length Live/Dead/UpliftJT otal 1 Trimmers 3.00" 1.50" 688/605/0/1293 By Others None 2 Trimmers 3.00" 1.50" 688/605/0/1293 By Others None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1234 -891 1378 Moment (Ft-Lbs) 1620 1620 2300 Live Load Detl (in) 0.028 0.175 Total Load Detl (in) 0.053 0.262 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 5' 6" ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. -Analysis assumes continuous member. Lap joints, splices and finger joints significantly reduce member performance and have not been considered. Control Passed (65%) Passed (70%) Passed (U999+) Passed (U999+) Location Rt. end Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NDS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. -Note: See T J SPECIFIER'S / BUILDER'S GUIDES for multiple ply connection. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Drafting Solutions\Cronauer - OS-066\Lower Level Window Hdrs.sms - BOISEw BC CALC@ 9 DESIGN REPORT - US Thursday, December 29, 2005 20:08 Single 91/2" Bel@450-1.9 OF Job Name: Address: City, State, Zip: , Customer: Code reports: ICC ESR (Pending) File Name: BC CALC Project: J01 Description: Specifier: Designer: Company: Misc: ccrIIIT~J l l l U l_l CJ_l~ ]~LIlJ 1 i.__ IIrDJ 1 BO,1-3/4" LL 333 Ibs DL 83 Ibs General Data Version: US Imperial Member Type: Number of Spans: Left Cantilever: Right Cantilever: Joist 1 No No Slope: OC Spacing: 16" Repetitive: Yes Construction Type: Glued Disclosure The completeness and accuracy of the input must be verified by anyone who would rely on the output as evidence of suitability for a particular application. The output above is based upon building code-accepted design properties and analysis methods. Installation of BOISE engineered wood products must be in accordance with the current Installation Guide and the applicable building codes. To obtain an Installation Guide or if you have any questions, please call (800)232-0788 before beginning product installation. BC CALC@, BC FRAMER@, BCI@, BC RIM BOARD1loI, BC OSB RIM BOARD1loI, BOISE GLULAM1loI, VERSA-LAM@, VERSA-RIM@, VERSA-RIM PLUS@, VERSA-STRAND1loI, VERSA-STUOO, ALLJOIST@ and AJS1loI are trademarks of Boise Cascade Corporation. Page 1 of 1 Total of Horizontal Design Spans = 12-06-00 Load Summary 10 Description load Type Ref. Start End 1 Standard Load Unf. Area Left 00-00-00 12-06-00 Type Live Dead Value 40 psf 10 psf Controls Summary Control Type Value Pos. Moment 1302 ft-Ibs End Reaction 412 Ibs Total Load Defl. L/764 (0.196") Live Load Defl. U955 (0.157") Max Def!. 0.196" Span I Depth 15.8 % Allowable 44.8% 40.2% 31.4% 50.2% 19.6% nla Duration 100% 100% load Case 1 1 1 1 1 B1, 1-3/4" LL 333 Ibs DL 83 Ibs OCS 16" 16" Our. 100% 90% Span location 1 - Internal 1 - Left 1 1 1 1 Notes Design meets Code minimum (U240) Total load deflection criteria. Design meets User specified (U480) Live load deflection criteria. Design meets arbitrary (1") Maximum load deflection criteria. Minimum bearing length for BO is 1-3/4". Minimum bearing length for B1 is 1-3/4". Entered/Displayed Horizontal Span Length(s) = Clear Span + 1/2 min. end bearing + 1/2 intermediate bearing I I t:) ~k!l..... T J-Beafl1l!) 6.20 Serial Number. 7004012143 uSer. 2 12129120056:04:08 PM Page 1 Engine Version: 6.20.16 Floor Beam 5 1/8" X 10 1/2" Classic Glulam™ (24F - V4 OF) THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J L ID , ~ L ~~ 14'10" '4 Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 11' 6" Primary Load Group - Residential - Living Areas (pst): 40.0 Live at 100 % duration, 20.0 Dead SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Other Width Length Live/Dead/UpliftIT otal 1 Plate on masonry wall 5.50" 2.39" 3412/1803/0/5214 By Others None 2 Wood column 5.50" 1.57" 3412/1803/0/5214 By Others None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Control Location Shear (Ibs) 4980 -4277 8610 Passed (50%) Rt. end Span 1 under Floor loading Moment (Ft-Lbs) 17637 17637 18834 Passed (94%) MID Span 1 under Floor loading Live Load Defl (in) 0.468 0.472 Passed (U363) MID Span 1 under Floor loading Total Load Defl (in) 0.716 0.708 Passed (U237) MID Span 1 under Floor loading -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 14' 10" ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -THIS ANALYSIS FOR TRUS JOIST PRODUCTS ONLY! PRODUCT SUBSTITUTION VOIDS THIS ANALYSIS. -Allowable Stress Design methodology was used for Building Code IBC analyzing the T J Distribution product listed above. -The analysis presented is appropriate for Classic Glulam TM beams by Weyerhaeuser. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business TJ-Beam@ is a registered trademark of Trus Joist. Classic Glulam~ is a trademark of Weyerhaeuser. C:\Documents and Settinqs\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - 05-066\Floor Beam.sms RETAINING WALL DESIGN 'PROJECT: CLIENT: CRONAUER CRONAUER .'1"::::::::::1: ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES. WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 0% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS LENGTH OF TOE = LENGTH OF HEEl = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 6FT 5.50 FT 8 IN DENSITY = 150 PCF 12 IN 12 IN 32 IN 8 IN 12 IN KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOIL BEARING CAPACITY = o PSF o PSF 1500 PSF ADDITIONAL GRAVITY LOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL LOAD TO WALL = o PLF o PLF CRITICAL CONDITION = OVERTURN 1 (1 FOR MIN or 2 MAX) STABILITY CALCULATIONS COMPONENl WT X WX BACKFILL 660 2.17 1430 STEM 600 1.33 800 FOOTING 267 1.33 356 KEY 0 2.67 0 OTHER 0 1.33 0 TOTAL 1527 2586 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = OTM= 1367.944 RM= 2586 FOS= 1.89 ~ OK e= 0.535771 FT BEARING LENGTH = 2.39 MAXIMUM SP = 1276 ~ OK MINIMUM SP = 0 382 67 LATERAL FORCE = o 382 SLIDING FOS = f':'l &.\1'~' ') 1.\" 1>.(' () ~L\e ' I 638 LB-FT 330 LB-FT ~ .~;;-, , Q ~'\ 1 C~ ~ ~;0j'~ 665 0.57 ~ NG If V VI ~)Y ~ l- WALLL: H V M 0.0 529 971 1.4 397 409 2.8 265 121 4.1 132 15 \ 5.5 0 0 ,\ v RETAINING WALL DESIGN . PROJECT: CLIENT: CRONAUER CRONAUER J::l::!: I::: :: ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES, WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 0% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS LENGTH OF TOE = LENGTH OF HEEL = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 8FT 7.50 FT 81N 18 IN 18 IN 44 IN 8 IN 12 IN DENSITY = 150 PCF KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOIL BEARING CAPACITY = ADDITIONAL GRAVITY LOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL LOAD TO WALL = CRITICAL CONDITION = o PSF o PSF 1500 PSF o PLF o PLF OVERTURN STABILITY CALCULATIONS 1 (1 FOR MIN or 2 MAX) COMPONENl WT X WX BACKFILL 1350 2.92 3938 STEM 800 1.83 1467 FOOTING 367 1.83 672 KEY 0 3.67 0 OTHER 0 1.83 0 TOTAL 2517 6076 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = 629 67 LATERAL FORCE = o ~)t. \ 'l"'104-l- 629 ..t()-c, SLIDING FOS = -z.; () 0). "l +c, e.. -'0'<-' f()/l...o 1 ~ ,.4e\'1 I 1638 LB-FT 1013 LB-FT ~ - ( "t\~ t 1'\ D. OTM= 3177.249 RM= 6076 FOS= 1.91 ~ OK e= 0.681357 FT BEARING LENGTH = 3.46 MAXIMUM SP = 1456 ~ OK MINIMUM SP = 0 1167 0.54 ~ NG WALLL: H V M 0.0 984 2461 1.9 738 1038 3.8 492 308 5.6 246 38 7.5 0 0 \l (j C ri''5el't v ~ ~..n ( . lc1 v - l:- tr;; e. . RETAINING WALL DESIGN PROJECT: CLIENT: CRONAUER CRONAUER :.':/.'!:!/lI!t: ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES, WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 10% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS LENGTH OF TOE = LENGTH OF HEEL = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 10 FT 9.50 FT 8 IN 18 IN 36 IN 62 IN 12 IN 12 IN DENSITY = 150 PCF KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOIL BEARING CAPACITY = ADDITIONAL GRAVITY LOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL LOAD TO WALL = CRITICAL CONDITION = OVERTURN o PSF 625 PSF 2125 PSF o PLF o PLF STABILITY CALCULATIONS 1 (1 FOR MIN or 2 MAX) COMPONENl WT X WX BACKFILL 3420 3.67 12540 STEM 1000 1.83 1833 FOOTING 775 2.58 2002 KEY 0 5.17 0 OTHER 0 1.83 0 TOTAL 5195 16375 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = 1299 75 LATERAL FORCE = I o >I 11~" 1299,1 I, f( 11 SLIDING FOS = '];.4 D.~ .q.~ Q ~ ,; t r t/ o.r . J Ii et -fJ./ \ (. I 2091 LB-FT 4447 LB-FT .Ir'<t I \ . j ~\ l\ \ r'lSr: lj o,e, \. rtse I)~().e, OTM= 6752.813 RM= 16375 FOS= 2.42 +- OK e= 0.731051 FT BEARING LENGTH = 5.17 MAXIMUM SP = 1859 +- OK MINIMUM SP = 152 1929 t! NG 0.67 +- ~I o ~~2 b iA~. C\ J;?,8 . 1____ -'l v' 6 ,{ . U J.5~1t' ~ WALLL: H V M 0.0 1579 5001 2.4 1185 2110 4.8 790 625 7.1 395 78 9.5 0 0 I (- o l\ ,J \/ I) 1 '" I f 19 I)fi/..IO . ... , , CJV I~ l[l ~;{ j:- ..::;;1- - ..: /)/.. )(/ ' IK.. .. 1 . I c;D2YI. . " 1,,/ --F ,.- 1 I I -. 1 ! I ., (~/(/-y I '\ C \ "'., t.(. 1;..0. '-.. ,-" .'- '" J ,. f' .. I , -.:.....) , " , ti II""" r' . /r: ')~ ;:",', ,,-,";' . ~'~Tt' '.. /1 f'\~'Ao,rt j". \.r'\ '1 ." i...'( I "', '. ~cx:: U' ~c:........J r' 1',""'- ~X~> ~l~ L L . .,. j \'/\,f' ." llt.:,~. t.. ~ L. '1-~'2.,( 4 I ~) (lO) . ~.Ic14.4:0 #. : it) ~ I [L (:. &Oi6d'~); I I ~.~f '-:r. I ":;;'t ~C . ~~l ~:) \ ; ". .~ , ') 2. 74,1P : ,... c" r'" . . , , ,.-0C.f,S lU/ < U #"10C 'I"~ . j~~.-v " ,...... 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'''/ C .. - ,- !) 0 --.----~1~ -'-,- r 'II r : -+--, I I r- -. 1- _'U"__d r---- , I ; , j;t70!Frz~ ;-- ..-, -- '--------r- --'~ I - -'_10_"___". - cj-!~-6~2_Fu,-R- r --;--!~Ti'51I'-- : - ... . ---/ ~_._- . , ,4 c- " - . ".'''' - ~i) ---r- -- --/ -". -;,~(f~=_: l/.zIJ Au_ / L^;.2JJ 7. ~ ,3?': C24i;; r:d:.'- I I l ! I [ -; 83'::: .- ~ :;. ~ -:, '/ :. ,- ,2 V / d: o,7S" i - . .- -l - ---t- -----,-- -. --, .-. -ta.-- -- -r- -1- :? S @ 12- ~ IOt:-_: W-J. I r- 1 -- I B{i-Ckd/~- ()JqJJJ I 11 I ' I - LV '; I ' :: ''? \ (- ~ ) 2. ~ -. '-.--- /2- \ 3!-) '}. - I , fl1 ~ 2 (ItJJ_.Q )(~:) '1lJ~ 3-r - I - - I - I --, 'j_ _n , .- 14-17.5 iF, 1; (L /117. 's- : : _ r:~:~L I - -, ,. ,- --, r-'- ~f @ 1~61rx:.~_ I ~--(q &4(, co'%,,#: I '~ .~' -lop 1) w;;U I -'r -- , I - - ,-- '--r- -~ 1- -_..~ IDe{ ~_! - _Of I I i i , F?{i/ r ,- : i .::i' _:yc._; 9{ +-k( ,X w-~0 I I ; I ! r- --, r ..;-_. -- -I- I i I : I i :f7:-l~t iLj3 1-)-~-6-r !_~-: __, ,I ' --1/ f . j.! :__ _i. . r-- ,_ ! i 4trD I 1 ,..-_.~ : 1"l?;,f, - -r I i i-. --,- .-_. ~- T i I I i i I I i - - r - T -- r---r----T-----r-- -- ......... I , I I I 1 -- -~--' I ----j---- t -. i ~ 12/25/2005 WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASeE 7-02 Description: Cronauer 4-Plex Analvsls by: Zenovic & Associates. December 2005 User Input Data Structure Type Building Basic Wind Speed M 100 mph Struc Category (I, II, III, or IV) II Exposure (B, C, or D) C Struc Nat Frequency (n1) 1 Hz Slope of Roof (Theta) 33.69 Deg lType of Roof Gabled Kd (Directonality Factor) 0.85 Eave Height (Eht) 9.00 ft Ridge Height (RHt) 30.00 ft Mean Roof Height (Ht) 24.00 ft Width Perp. To Wind Dir (B) 78.00 ft Width Para/. To Wind Dir (L) 48.00 ft DampinQ Ratio (beta) 0.01 Red values should be changed only through "Main Menu" Calculated Parameters Type of Structure Height/Least Horizontal Dim I 0.50 Flexible Structure I No Calculated Parameters Importance Factor 1 Non-Hurricane, Hurricane (v=85-100 mph) & Alaska Table 6-2 Values Alpha = 9.500 7g = I 900.000 ~t= 0.105 Bt = 1.000 [Am = 0.154 Bm= 0.650 Cc= 0.200 1= 500.00 ft Epsilon = 0.200 Zmin= 15.00 ft Gust Factor Category I: Rigid Structures. Simplified Method Gust1 IFor rigid structures (Nat Freq > 1 Hz) use 0.85 0.85 Gust Factor Category II: Rigid Structures. Complete Analysis ~m Zmin 15.00 ft Izm Cc * (33/z)^0.167 0.2281 Lzm 1*(zm/33)^Epsilon 427.06 ft Q (1/(1 +0.63*((Min(B, L)+Ht)/Lzm)^0.63))^0.5 0.9109 Gust2 0.925*((1 +1. 7*lzm*3.4*Q)/(1 +1. 7*3.4*lzm)) 0.8781 Gust Factor Summary G ISince this is not a flexible structure the lessor of Gust1 or Gust2 are used I 0.851 Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com Page No. 1 of 5 WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASCE 7-02 6.5.12.2.1 Desian Wind Pressure - Buildinas of All Heiahts Elev Kz Kzt qz Pressure (Iblft^2) Windward Wall. ft Ib/ft^2 +GCpi -GCpi 30 0.98 1.00 21.37 10.86 18.20 24 0.94 1.00 20.39 10.20 17.54 20 0.90 1.00 19.63 9.67 17.02 15 0.85 1.00 18.47 8.89 16.23 Fia 6-5 Internal Pressure Coefficients for Buildinas. GCDi Condition Gcpi Max + Max- Open Buildings 0.00 0.00 Partially Enclosed Buildings 0.55 -0.55 Enclosed Buildings 0.18 -0.18 Enclosed Buildings 0.18 -0.18 Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com 12/25/2005 Page NO.2 of 5 I B WIND02 v1-02 Detailed Wind Load Design (Method 2) per ASCE 7-02 Fiaure 6-6 - External Pressure Coefficients. CD Loads on Main Wind-Force Resisting Systems (Method 2) h .. I L Variable Formula Value Units Kh 2.01 *(Htlzg)^(2/Alpha) 0.94 Kht Topographic factor (Fig 6-4) 1.00 Qh .00256* (V)^2*I*Kh*Kht*Kd 20.39 psf Khcc Comp & Clad: Table 6-3 Case 1 0.94 Qhcc .00256*V^2*I*Khcc*Kht*Kd 20.39 psf Wall Pressure Coefficients, Cp Surface I Cp Windward Wall (See Fioure 6.5.12.2.1 for Pressures) I 0.8 Roof Pressure Coefficients, Cp Roof Area (Sq. ft.) I 3,744 Reduction Factor I 0.80 Calculations for Wind Nonnal to 78 ft Face Cp Pressure (pst) Additional Runs may be req'd for other wind directions +GCpi -GCpl Leeward Walls (Wind Dir Normal to 78 ft wall) -0.50 -12.34 -5.00 Leeward Walls (Wind Dir Normal to 48 ft wall) . -0.38 -10.17 -2.83 Side Walls -0.70 -15.80 -8.46 Roof - Wind Normal to Ridoe (Theta>=10) - for Wind Normal to 78 ft face Windward - Min Cp -0.20 -7.14 0.20 Windward - Max Cp 0.27 1.08 8.42 Leeward Normal to Ridge -0.60 -14.07 -6.73 Overhang Top (Windward) -0.20 -3.47 -3.47 Overhang Top (Leeward) -0.60 -10.40 -10.40 Overhano Bottom (Applicable on Windward only) 0:80 12.56 12.56 Roof - Wind Parallel to Ridae (All Theta) - for Wind Normal to 48 ft face Dist from Windward Edge: 0 ft to 48 ft - Max Cp -0.18 -6.79 0.55 Dist from Windward Edge: 0 ft to 12 ft - Min Cp -0.90 -19.27 -11.93 Dist from Windward Edge: 12 ft to 24 ft - Min Cp -0.90 -19.27 -11.93 Dist from Windward Edge: 24 ft to 48 ft - Min Cp -0.50 -12.34 -5.00 Dist from Windward Edge: > 48 ft -0.30 -8.87 -1.53 * Horizontal distance from windward edge Copyright 2002 - MECA Enterprises, Inc. www.mecaconsulting.com 12/25/2005 , is 15 I / Page No. 3 of 5 REINFORCED CONCRETE/MASONRY DESIGN - ALTERNATE METHOD Sheet _1_ of _1_ ZENOVIC AND ASSOCIATES Job No. 519 SOUTH PEABODY STREET, SUITE 22 Port Angeles, WA 98362 MATERIAL PROPERTIES: (Only for Nonnal Wt Concrete I Masonry without inspection) MATERIAL:; c ( C or M ) fm I fe = 2500 psi Fs= 40 ksi E= 2880952 psi n= 10.1 MEMBER #! DESCRIPTION: 6' Retaining Wall LOCATION: b= 24 in REINFORCING: SIZE: 4 d= 5.75 in NO. BARS: 1 As= 0.20 APPLIED MOMENT: 15120 Ib-in 19.3 k-ft Design Moment = 15120 Ib-in Stress Level: 133% DESIGN CONSTANl p= 0.001449 k= 0.156287 j = 0.9479045 STRESSES: fm I fe = 257.2 psi Fm I Fe = 1496 psi OK fs = 13.9 ksi Fs= 26.6 ksi OK MEMBER # I DESCRIPTION: 8' Retaining Wall LOCATION: b= 12 in REINFORCING: SIZE: 5 d= 5.75 in NO. BARS: 1 As = 0.31 APPLIED MOMENT: 35840 Ib-in 64 k-ft Design Moment = 35840 Ib-in Stress Level: 133% DESIGN CONSTANl p= 0.004493 k= 0.255861 j = 0.9147131 STRESSES: fm I fe = 772.0 psi Fm I Fe = 1496 psi OK fs= 22.0 ksi Fs = 26.6 ksi OK MEMBER # .-to.< .... DESCRIPTION: 9' Braced Basement Wall LOCATION: b= 12 in REINFORCING: SIZE: 4 d= 5.75 in NO. BARS: 1 As= 0.20 APPLIED MOMENT:, 19641.5 Ib-in 27.6 k-ft Design Moment = 19641.5 Ib-in Stress Level: 133% DESIGN CONSTANl p= 0.002899 k= 0.212564 j = 0.9291453 STRESSES: fm/fe= 501.3 psi Fm I Fe = 1496 psi OK fs= 18.4 ksi Fs= 26.6 ksi OK <<:l ~Z~.... _ T J-Beamll> 6.20 Serial Number: 7004012143 User. 2 1213012oo57:07:461>N. Page 1 Engine Version: 6.20.16 Kitchen Bay Header 3 1/2" X 71/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED Member Slope: 0112 Roof SIope0l12 J J , ~ 7' L ~ I 4 All dimensions are horizontal. Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 14' Primary Load Group - Snow (pst): 25.0 Live at 115 % duration, 17.0 Dead SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Width Length Live/Dead/UpliftlTotal 1 Stud wall 3.50" 1.50" 1225 I 854 I 0 I 2079 By Others 2 Stud wall 3.50" 1.50" 1225 I 854 I 0 I 2079 By Others -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others Other None None DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1980 -1547 1848 Moment (Ft-Lbs) 3300 3300 3341 Live Load Defl (in) 0.087 0.222 Total Load Defl (in) 0.148 0.333 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 7' o/c unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. -Analysis based on vertical loads only and assumes structural supports as noted in the input. Axial loads are not considered in this analysis. -Design assumes adequate continuous lateral support of the compression edge. Control Passed (84%) Passed (99%) Passed (U915) Passed (U539) Location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J teChnical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NDS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. PROJECT INFORMATION: Paul Cronauer Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Drafting Solutions\Cronauer - 05-066\Kitchen bay header.sms . A.......-~~ eCiJ ~~Bwina. T..J.Bea~6.20 Serial Number: 7004012143 User: / 12129120058:06:21 PM Page I Engine Version: 6.20.16 Floor Joists 9 1/2" T JI@ 210 @ 16" ole THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED I ~ 0. 12'6" 1 ~ LOAOS: Analysi> is for a Joist Member. Primal) Load Group - Residential-living Areas (pst): 40.0 live at 100 % duration, 20.0 Dead o!. Product Diagram is Conceptual. SUPPORTS: Input Bearing Vertical Reactions Detail Other Width Length (Ibs) Live/Dead/Uplift/T otal 1 SMwal/ 5.50" 4.25" 334/167/0/501 A3:Rim 1 Ply 11/4" x 91/2" 0.8E TJ-Strand Rim Board Board@ 2 Gluam or solid sawn lumber 5.13" 3.88" 333/166/0/499 A3:Rim 1 Ply 1 1/4" x 91/2" 0.8E TJ-Strand Rim bean Board Board@ .cAUTIO<, Requ'''''' bearing Ie".th(,) exceed the m'""',"m ,'- '" the T J Bu'~e', .u~e to, 'mgle faml~ -de"",,' appl'celio.... Umlts, EOd supports. 3 1/2" . Intermediate supports, 3 1/2" with web stiffeners and 5 1/4" without web stiffeners. -See T J SPECIFIER'S / BUILDERS GUIDE for detail(s): A3: Rim Board Shear (/bs) Vertical Reaction (/bs) Moment (Ft-Lbs) live Load Defl (in) Total Load Defl (in) T JPro DESIGN CONTROLS: Maximum 471 471 1388 Design -465 471 1388 0.130 0.195 44 Control 1330 1330 2860 0.295 0.589 30 Control Passed (35%) Passed (35%) Passed (49%) Passed (U999+) Passed (L/723) Passed Location Rt. end Span 1 under Floor loading Bearing 2 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading Span 1 -Deflection Criteria: STANDARD(LL:U480,TL:U240). -llefIec1jon '.a."" · based on compos" actio" - "".Ie ~ye.- of 19132" Pa..., (20" Spao Rati".) GLUED & NAILED WOOd deck'ng -B..cing(l"', All ""m.,..,,,,,, edges (top and bottom) m"" be boaced a'4' 0" oIc ""Ies, detailed __. Pmpe, attachme"' aod pas,lio"'". of lateral bracing is required to achieve member stability. T J.Pro RATING SYSTEM -The T J-I'ro -.. S"tam va'ue P"",~e' add"o".' Iloo, ",,",,""aoco 'ofonnalioo aOd i, ba,ed on . GLUED & NAILED 19132" Pao.~ (20" Spa" Ra'".) decking. The """homng "'." ~ '"PP<>rted by beam,. Addilio"", """,~e..'o", to, this ..,". '"cl",'", Ceiling _ No"e. A 8lruct".., ao.,,,i, of the deck has not been performed by the program. Comparison Value: 1.31 PROJECT INFORMATION: Cronauer 4-P/ex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 COPY~ight C 2005 by Trus Joist, a Weyerhaeuser Business TJI@ and TJ-8ea~ are registered trademarks of Trus Joist. e-I Joist-,Pro. and TJ-Pro. are trademarks of Trus Joist. t:::I""ldt-. T J-Beam<!> 6.20 Serial Number. 7004012143 'User: 2 1212912005 6:23:47 PM Page 1 Engine Version: 6.20.16 Upper Level Window Headers 2 Pes of 1 112" x 7 114" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED Member Slope: 0112 Roof SIope0l12 J ~~ L J~ " 5' 6" ~ All dimensions are horizontal. Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 14' Primary Load Group - Snow (pst): 25.0 Live at 115 % duration, 17.0 Dead SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail other Width Length Live/Dead/UpliftIT otal 1 Trimmers 3.00" 1.50" 963/669/0/1631 By Others None 2 Trimmers 3.00" 1.50" 963/669/0/1631 By Others None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1557 -1125 1584 Moment (Ft-Lbs) 2044 2044 2645 Live Load Defl (in) 0.039 0.175 Total Load Defl (in) 0.067 0.262 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 5' 6" olc unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. -Analysis based on vertical loads only and assumes structural supports as noted in the input. Axial loads are not considered in this analysis. -Analysis assumes continuous member. Lap joints, splices and finger joints significantly reduce member performance and have not been considered. -Design assumes adequate continuous lateral support of the compression edge. Control Passed (71%) Passed (77%) Passed (U999+) Passed (U947) Location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NDS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. -Note: See T J SPECIFIER'S I BUILDER'S GUIDES for multiple ply connection. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright Q 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - 05-066\Upper Level Window Headers.sms ~~l~..... T J-Be~ 6.20 Serial Number: 7004012143 . User: 2 12/29120058:19:03 PM Page 1 Engine Version: 6.20.16 Garage Door Header 3112" X 11114"1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J .a. [!]~ , " 9.9.. ... L ~~ , ~ Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 6' Primary Load Group - Residential- Living Areas (pst): 40.0 Live at 100 % duration, 20.0 Dead Vertical Loads: Type Class Live Dead Location Application Comment Uniform(plt) Snow(1.15) 63.0 43.0 0 To 9' 9" Adds To Point(lbs) Snow(1.15) 125 210 l' 3" Point(lbs) Snow(1.15) 125 210 8'6" SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Other Width Length Live/Dead/UpliftIT otal 1 Stud wall 3.50" 1.78" 1602/1050 I 0 12652 By Others None 2 Stud wall 3.50" 1.78" 1602/1050/0/2652 By Others None -See T J SPECIFIER'S I BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 2573 -2068 2868 Moment (Ft-Lbs) 5632 5632 6806 Live Load Defl (in) 0.085 0.314 Total Load Defl (in) 0.137 0.471 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 9' 9" ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. Control Passed (72%) Passed (83%) Passed (U999+) Passed (U826) Location Rt. end Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading MID Span 1 under Snow loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NOS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the performance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright Q 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settings\KATE WADDELL\Desktop\Drafting Solutions\Cronauer - 05-066\Garage Door Header.sms t:) ~l~..... r J-Bearm!l6.20 Serial Number: 7004012143 User. 2 12/2912005 8: 13:25 PM Page 1 Engine Version; 6.20.16 Lower Level Window Headers 2 Pes of 1 1/2" x 7 1/4" 1.6E Solid Sawn Douglas Fir #2 THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J ~~ L ~~ ~ 5' 6" ~ Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 6' 3" Primary Load Group - Residential- Living Areas (psf): 40.0 Live at 100 % duration, 20.0 Dead Vertical Loads: Type Class Live Dead Location Application Comment Unifonn(plf) Floor(1.00) 0.0 90.0 0 To 5' 6" Adds To Wall Loading SUPPORTS: Input Bearing Vertical Reactions (Ibs) Detail Other Width Length Live/Dead/UpliftfTotal 1 Trimmers 3.00" 1.50" 688/605/0/1293 By Others None 2 Trimmers 3.00" 1.50" 688 / 605 / 0 /1293 By Others None -See T J SPECIFIER'S / BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Shear (Ibs) 1234 -891 1378 Moment (Ft-Lbs) 1620 1620 2300 Live Load Defl (in) 0.028 0.175 Total Load Defl (in) 0.053 0.262 -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 5' 6" o/c unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. -The allowable shear stress (Fv) has not been increased due to the potential of splits, checks and shakes. See NDS for applicability of increase. -Analysis assumes continuous member. Lap joints, splices and finger joints significantly reduce member perfonnance and have not been considered. Control Passed (65%) Passed (70%) Passed (U999+) Passed (U999+) Location Rt. end Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading MID Span 1 under Floor loading ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The speCific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -Solid sawn lumber analysis is in accordance with 1997 NDS methodology and is solely presented for comparison purposes. Program limitations and assumptions about this analysis are available through the software's On-line Help. Trus Joist does not warrant the analysis nor the perfonnance of solid sawn lumber materials. -Allowable Stress Design methodology was used for Building Code IBC analyzing the solid sawn lumber material listed above. -Note: See T J SPECIFIER'S 1 BUILDER'S GUIDES for multiple ply connection. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business C:\Documents and Settinqs\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - OS-066\Lower Level Window Hdrs.sms . - BOISEN BC CALC@ 9 DESIGN REPORT - US Thursday, December 29,200520:08 Single 9 1/2" Bel@ 450-1.9 OF Job Name: Address: City, State, Zip: , Customer: Code reports: ICC ESR (Pending) File Name: BC CALC Project: J01 Description: Specifier: Designer: Company: Misc: BO, 1-3/4" LL 333 Ibs DL 83 Ibs General Data Version: US Imperial Member Type: Number of Spans: Left Cantilever: Right Cantilever: Joist 1 No No Slope: OC Spacing: 16" Repetitive: Yes Construction Type: Glued Disclosure The completeness and accuracy of the input must be verified by anyone who would rely on the output as evidence of suitability for a particular application. The output above is based upon building code-accepted design properties and analysis methods. Installation of BOISE engineered wood products must be in accordance with the current Installation Guide and the applicable building codes. To obtain an Installation Guide or if you have any questions, please call (800)232-0788 before beginning product installation. BC CALC@, BC FRAMER@, BCI@, BC RIM BOARD'N, BC OSB RIM BOARD'N, BOISE GLULAM""', VERSA-LAM@, VERSA-RIM@, VERSA-RIM PLUS@, VERSA-STRANDlM, VERSA-STUOO, ALLJOIST@ and AJS'N are trademarks of Boise Cascade Corporation. Page 1 of 1 Total of Horizontal Design Spans = 12-06-00 Load Summary 10 Description Load Type Ref. 1 Standard Load Unf. Area Left Start End Type 00-00-00 12-06-00 Live Dead Value 40 psf 10 psf Controls Summary Control Type Value Pos. Moment 1302 ft-Ibs End Reaction 412 Ibs Total Load Defl. L/764 (0.196") Live Load Defl. U955 (0.157") Max Defl. 0.196" Span / Depth 15.8 % Allowable 44.8% 40.2% 31.4% 50.2% 19.6% n/a Duration 100% 100% Load Case 1 1 1 1 1 81,1-3/4" LL 333 Ibs DL 83 Ibs oes 16" 16" Our. 100% 90% Span Location 1 - Internal 1 - Left 1 1 1 1 Notes Design meets Code minimum (U240) Total load deflection criteria. Design meets User specified (U480) Live load deflection criteria. Design meets arbitrary (1") Maximum load deflection criteria. Minimum bearing length for BO is 1-3/4". Minimum bearing length for B1 is 1-3/4". Entered/Displayed Horizontal Span Length(s) = Clear Span + 1/2 min. end bearing + 1/2 intermediate bearing ~~za:-- . T J-Bea~ 6.20 Serial Number: 7004012143 User: 2 12/29120058:04:08 PM Page 1 Engine Version: 6.20.16 Floor Beam 5 1/8" X 10 1/2" Classic Glulam™ (24F - V4 OF) THIS PRODUCT MEETS OR EXCEEDS THE SET DESIGN CONTROLS FOR THE APPLICATION AND LOADS LISTED J L Iil I ~ L ~ 14' 10" '4 Product Diagram is Conceptual. LOADS: Analysis is for a Drop Beam Member. Tributary Load Width: 11' 6" Primary Load Group - Residential- Living Areas (pst): 40.0 Live at 100 % duration, 20.0 Dead SUPPORTS: 1 Plate on masonry wall 2 Wood column Input Width 5.50" 5.50" Bearing Length 2.39" 1.57" Vertical Reactions (Ibs) Live/Dead/UpliftIT otal 3412/1803/0/5214 3412/1803/0/5214 Detail Other By Others By Others None None -See T J SPECIFIER'S / BUILDERS GUIDE for detail(s): By Others DESIGN CONTROLS: Maximum Design Control Control Location Shear (Ibs) 4980 -4277 8610 Passed (50%) Rt. end Span 1 under Floor loading Moment (Ft-Lbs) 17637 17637 18834 Passed (94%) MID Span 1 under Floor loading live Load Defl (in) 0.468 0.472 Passed (U363) MID Span 1 under Floor loading Total Load Defl (in) 0.716 0.708 Passed (U237) MID Span 1 under Floor loading -Deflection Criteria: STANDARD(LL:U360,TL:U240). -Bracing(Lu): All compression edges (top and bottom) must be braced at 14' 10" ole unless detailed otherwise. Proper attachment and positioning of lateral bracing is required to achieve member stability. ADDITIONAL NOTES: -IMPORTANT! The analysis presented is output from software developed by Trus Joist (T J). T J warrants the sizing of its products by this software will be accomplished in accordance with T J product design criteria and code accepted design values. The specific product application, input design loads, and stated dimensions have been provided by the software user. This output has not been reviewed by a T J Associate. -Not all products are readily available. Check with your supplier or T J technical representative for product availability. -THIS ANAL VSIS FOR TRUS JOIST PRODUCTS ONL V! PRODUCT SUBSTITUTION VOIDS THIS ANAL VSIS. -Allowable Stress Design methodology was used for Building Code IBC analyzing the T J Distribution product listed above. -The analysis presented is appropriate for Classic Glulam 1M beams by Weyerhaeuser. PROJECT INFORMATION: Cronauer 4-Plex Port Angeles, WA OPERATOR INFORMATION: Annie O'Rourke Prudential Drafting Solutions PO Box 1246 Port Angeles, WA 98362 Phone: (360) 417-5615 Copyright ~ 2005 by Trus Joist, a Weyerhaeuser Business TJ-Beam@ is a registered trademark of Trus Joist. Classic Glulam~ is a trademark of Weyerhaeuser. C:\Documents and Settinqs\KATE WADDELL\Desktop\Draftinq Solutions\Cronauer - 05-066\Floor Beam.sms RETAINING WALL DESIGN PROJECT: CLIENT: CRONAUER CRONAUER .I,'I,',',',',',','!.'},' ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES, WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 0% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS lENGTH OF TOE = lENGTH OF HEEL = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 6FT 5.50 FT 8 IN 12 IN 12 IN 32 IN 8 IN 12 IN DENSITY = 150 PCF KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOil BEARING CAPACITY = ADDITIONAL GRAVITY lOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL lOAD TO WALL = CRITICAL CONDITION = o PSF o PSF 1500 PSF o PlF o PLF OVERTURN STABILITY CALCULATIONS 1 (1 FOR MIN or 2 MAX) COMPONENl WT X WX BACKFILL 660 2.17 1430 STEM 600 1.33 800 FOOTING 267 1.33 356 KEY 0 2.67 0 OTHER 0 1.33 0 TOTAL 1527 2586 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = 382 67 LATERAL FORCE = o 382 SLIDING FOS = f J I &"11111 ').,1.\"1).(' U ~L\e I 638 LB-FT 330 LB-FT ~ "J\;), ill \JI.\ ) /.A '^ ~}'1"Jv'"" C e \Jv' OTM= 1367.944 RM= 2586 FOS= 1.89 ~ OK e= 0.535771 FT BEARING LENGTH = 2.39 MAXIMUM SP = 1276 ~ OK MINIMUM SP = 0 665 0.57 ~ NG WALLL: H V M 0.0 529 971 1.4 397 409 2.8 265 121 4.1 132 15 , 5.5 0 0 ,\ ,If y vi I J'I 0; (. ~ RETAINING WALL DESIGN . PROJECT: CLIENT: CRONAUER CRONAUER :: :1:: :; :; ;: I: ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES, WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 0% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS LENGTH OF TOE = LENGTH OF HEEL = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 8FT 7.50 FT 8 IN 18 IN 18 IN 44 IN 8 IN 12 IN DENSITY = 150 PCF KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOIL BEARING CAPACITY = ADDITIONAL GRAVITY LOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL LOAD TO WALL = CRITICAL CONDITION = o PSF o PSF 1500 PSF o PLF o PLF OVERTURN STABILITY CALCULATIONS 1 (1 FOR MIN or 2 MAX) COMPONENl WT X WX BACKFILL 1350 2.92 3938 STEM 800 1.83 1467 FOOTING 367 1.83 672 KEY 0 3.67 0 OTHER 0 1.83 0 TOTAL 2517 6076 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = 629 67 LATERAL FORCE = o f- ,,0- \ '/'" 1-4:~ 629 v,.f()-C- SLIDING FOS = ..c, e.. V "'0,(" fl)a..~"'1"l~ ,4 e\'t I 1638 LB-FT 1013 LB-FT ! 1'\. C.( ~..., t . OTM= 3177.249 RM= 6076 FOS= 1.91 ~ OK e= 0.681357 FT BEARING LENGTH = 3.46 MAXIMUM SP = 1456 ~ OK MINIMUM SP = 0 1167 0.54 ~ NG WALLL: H V M 0.0 984 2461 1.9 738 1038 3.8 492 308 5.6 246 38 7.5 0 0 \\,') C k S e \'Z v ~ _.0 (', ~ t" e. l~vt v. . . RETAINING WALL DESIGN PROJECT: CLIENT: CRONAUER CRONAUER /:/::J/fl:t::: ZENOVIC & ASSOCIATES, INC. 519 S. PEABODY ST. SUITE #22 PORT ANGELES, WA. 98362 JOB #: 05241 SOIL PROPERTIES DENSITY = COEF. FRICTION = BEARING CAPACITY= ACTIVE SP = PASSIVE SP = WALL TYPE: 120 PCF WIDTH INCREASE = 10% PER FT 0.25 X DL DEPTH INCREASE = 0% PER FT 1500 PSF 35 PCF 150 PCF (DEPTH FROM TOP OF WALL FOR KEY) BASEMENT RETAINING WALL WALL DIMENSIONS STEM HEIGHT = RETAINED EARTH = STEM THICKNESS = FOOTING DIMENSIONS LENGTH OF TOE = LENGTH OF HEEL = TOTAL WIDTH = THICKNESS = FOOTING DEPTH = 10 FT 9.50 FT 8 IN DENSITY = 150 PCF 18 IN 36 IN 62 IN 12 IN 12 IN KEY DEPTH = KEY WIDTH = HEEL TO KEY = o IN o IN o IN DENSITY = 150 PCF INCREASE FOR DEPTH = INCREASE FOR WIDTH = MAXIMUM SOIL BEARING CAPACITY = o PSF 625 PSF 2125 PSF ADDITIONAL GRAVITY LOADS TO WALL MINIMUM VERTICAL LOAD TO WALL = MAXIMUM VERTICAL LOAD TO WALL = o PLF o PLF CRITICAL CONDITION = OVERTURN 1 (1 FOR MIN or 2 MAX) STABILITY CALCULATIONS COMPONENl WT X WX BACKFILL 3420 3.67 12540 STEM 1000 1.83 1833 FOOTING 775 2.58 2002 KEY 0 5.17 0 OTHER 0 1.83 0 TOTAL 5195 16375 SLIDING: FRICTION = SP FOOTING = SP KEY = TOTAL MOMENTS AND SHEARS FOOTING MOMENTS: TOE (BOT STL) = HEEL (TOP STL) = OTM= 6752.813 RM= 16375 FOS = 2.42 ~ OK e= 0.731051 FT BEARING LENGTH = 5.17 MAXIMUM SP = 1859 ~ OK MINIMUM SP = 152 1299 75 LATERAL FORCE = o >I 11~ L 1299,1 l 'f(11'SLlDINGFOS= .J.l} 2>4 D" v .y.~ ~r,ftb oJ. /1'1 er -1/.1\, I 2091 LB-FT 4447 LB-FT I/'~ . i \, I' \ r\5f 4 O,e, \. 1+56' l)vo.C, ~ cui t! () ~ L ""/~ ~ NG 1929 0.67 WALLL: H V M 0.0 1579 5001 2.4 1185 2110 4.8 790 625 7.1 395 78 9.5 0 0 , f- r,1\ jJ\; l/fi(\ JoSe . ~ - /)V\{),C- J.;e'v e-. I) ~ I (- I ~ lA 1)(.1.:0