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Residence Addition
Structural Design
for
Daniel Clawson
225 E Eleventh St
Port Angeles, WA 98362
TP# 063000 032975
�i °1
I EXPIRES O q
4 SEASONS ENGINEERING, INC
619 SOUTH CHASE STREET
PORT ANGELES, WA 98362
4SEASONS
ENGINEERING, INC
Jim Lierly
City of Port Angeles Building Official
PO Box 1150
Port Angeles, WA 98362
Subject: Scope of Engineering for
Enclosed is the structural design of the Residence Addition for Daniel Clawson
At this time, portions of this structure that have been reviewed by the engineer
include
1 Lateral Forces
2. Beams and Headers
3. Foundation
Please give me a call if you need any additional information.
Sincerely
Donna J Petersen P.E.
Structural Design
Daniel Clawson
225 E. Eleventh St
Port Angeles, WA 98362
(360) 452-3023 Fax (360) 452 -3047
619 S. Chase Street Port Angeles, WA 98362
March 30, 2007
Structural Design
Daniel Clawson
225 E. Eleventh St
Port Angeles, WA 98362
DESIGN CRITERIA
ELEVATION LESS THAN 625 FT
SNOW LOAD GROUND= 25 PSF
SNOW ROOF 25 PSF
LIVE LOAD 40 PSF (FLOOR)
DEAD LOAD 10 PSF (FLOOR)
DEAD LOAD 10 PSF (ROOF)
DEAD LOAD 7 PSF (CEILING)
WIND SPEED, VFM 80 MPH
3 SEC GUST, Vas 100 MPH
EXPOSURE C
SEISMIC ZONE D2
SOIL BEARING 1500 PSF
REFERENCES
(1)
(3)
(4)
(5)
(6)
DESIGN STRESSES
DOUGLAS FIR/LARCH #2- 2 4 x
Fb 900 PSI
Fv 95 PSI
E= 1 6 (10) PSI
DOUGLAS FIR/LARCH #1- 2 4 x
Fb 1200 PSI
Fv 95 PSI
E= 1.8 (10) PSI
HEM FIR #2 -2 &4
Fb 850 PSI
F 75 PSI
E= 1 3 (10) PSI
GLU -LAM BEAMS 24F -V4
Fb= 2400 PSI (T) BOTTOM
Fb= 1850 PSI (T) TOP
Fv= 165 PSI
E= 1.8 (10) PSI
INTERNATIONAL BUILDING CODE 2003
INTERNATIONAL RESIDENTIAL CODE 2003
TIMBER CONSTRUCTION MANUAL 3RD ED by AITC
CONNECTORS FOR WOOD CONSTRUCTION by SIMPSON STRONG -TIE
WESTERN WOODS USE BOOK by WESTERN WOOD PRODUCTS ASSOCIATION MAY 1996
NATIONAL DESIGN SPECIFICATION FOR WOOD CONSTRUCTION 2001
ROSBORO -APA WOODCAD, VERSION 1 1 by ROSBORO GLULAM RESOURCES 2000
RISA -2D RAPID INTERACTIVE STRUCTURAL ANALYSIS 2- DIMENSIONAL VERSION 6.5
General Notes
1 Ground snow load 25 PSF roof snow load 25 PSF
2. Maximum soil bearing capacity 1500 PSF
3. Seismic Zone D2.
4. Wind, VFM 80 MPH, 3 second gust, V38 100 MPH, Exposure 'C'
5. Notations on drawing relating to framing clips, Joist hangers and other connecting devices refer to catalog numbers of connectors
manufactured by the Simpson Strong -Tie Company, San Leandro, CA. Equivalent devices by other manufacturers may be
substituted, provided they have ICBO approval for equal load capacities.
6. Roof Trusses: Trusses shall be designed by the manufacturer and design calculations shall be submitted for approval prior to
fabrication. Each wood truss shall carry a grading stamp. Top chord members shall be sized to accommodate roof snow load
and appropriate snow drifts as noted in the IBC. No field modification of trusses will be allowed without the engineer's approval.
Live load truss deflection shall be limited to U360. Total load deflection will be limited to U240.
7 Girder trusses shall be attached to wail framing with Simpson LGT2, minimum 2000 pounds uplift, or equal.
8. Contractor shall provide temporary bracing and shoring for the structure and structural components until all final connections
have been completed in accordance with the plans.
9. Contractor shall be responsible for all the required safety precautions and methods, techniques, sequences or procedures
required to perform his work.
10. Contractor initiated changes shall be submitted in writing to the structural engineer for approval prior to fabrication or
construction.
11 Drawings indicate general and typical details of construction, where conditions are not specifically indicated but are of similar
character to details shown, similar details of construction shall be used.
Footings and other unformed surfaces:
earth face 3'
General Concrete Notes
(The Following apply unless shown on the plans)
1 All materials and workmanship shall conform to the requirements of the drawings, specifications, and the 2003 international
Residential Code.
2. Concrete shall attain a 28 day strength of F'c= 2500 psi, 6 1/2 sacks of cement per cubic yard of concrete.
3. Reinforcing steel shall conform to ASTM A615 -76A, Grade 40, fy= 40,000 psi.
4. Reinforcing steel shall be detailed (including hooks and bends) in accordance with 30 bar diameters or 2' -0' minimum.
Provide corner bars in all wall Intersections. Lap corner bars 30 bar diameters or 2' -0' minimum.
5. Lap adjacent mats of welded wire mesh one full mesh at sides and ends.
6. No bars partially embedded in hardened concrete shall be field bent unless specifically so detailed or approved by the
structural engineer
7 Concrete protection (cover) for reinforcing steel shall be as follows:
Formed surfaces exposed to earth, walls below ground, or weather.
#6 bars or larger 2'
#5 bars or smaller 1 -1/2'
Walls interior face 314'
8. Footings shall bear on solid unyielding natural earth free of organic material
Single story structures 12" below original grade
Two story structures 18' below original grade
Three story structures 24' below original grade
9. Concrete slabs in living spaces shall be 4 inches thick minimum, with 6x6, 10 ga W W.M. over 2' clean damp sand, over 6 mil
vapor barrier over 4' crushed rock, over compacted subgrade.
10. Other concrete slabs shall be 4 Inches thick minimum, with 6x6, 10 ga W.W.M. over 4' crushed rock, over compacted
subgrade.
1
Wood Framing Notes
(The Following apply unless shown on the plans)
All wood framing details not shown otherwise shall be constructed equal to or better than the minimum standards of the 2003
I.R.C.
2. Minimum nailing requirements: Unless otherwise noted, minimum nailing shall be in accordance with Table R602.3(1) of the
2003 I.R.C.
3. All structural framing lumber such as 2x_ joists, and rafters to be Douglas Fir No. 2, Spruce /Pine /Fir No. 2, or Hem /Fir No. 2 kiln
dried.
4. All 2x_ studs and blocking to be Douglas Fir construction, Spruce /Pine /Fir construction, or Hem/Fir construction grade.
5. All structural posts to be Douglas Fir No. 2.
6. All structural headers to be 4x Douglas Fir No. 2.
7 All Glu -lam beams to consist of Douglas Fir kiln dried 24F -V4 standard grade unless noted otherwise on plans.
8. All 2x framing lumber exposed to weather and /or moisture shall be Hem -Fir No.2, pressure treated in accordance with the
American Wood Preservers Association standard for above ground use.
9. All 4x and 6x structural lumber exposed to weather and/or In ground contact shall be Hem -Fir No.2, pressure treated in
accordance with the American Wood Preservers Association standard for ground contact use.
10. Framing connectors, nails, bolts, and other fasteners in contact with pressure treated wood shall have the following finishes:
Wood Treatment
CCA -C and DOT Sodium Borate (SBX)
ACQ -C, ACQ -D, CBA -A, CA -B, Other Borate (Non
DOT)
Steel Ammoniacal Copper Zinc Arsenate (ACZE)
I and other pressure treated woods.
I Finish
I Galvanized, 0.60 oz/ft
Post Hot -Dip Galvanized, ZMAX galvanized, 1.85
ozIft or SST300- Stainless Steel
I SST300- Stainless Steel
11. When using Stainless Steel or hot -dip galvanized connectors, the connectors and fasteners should be made of the same
material. Stainless Steel fasteners shall not be use in applications where contact with Galvanized and Post Hot -Dip Galvanized
metals will occur
12. Individual members of built -up posts and beams shall each be attached with 16d spikes at 12' o.c. staggered.
13. All columns in framed walls to be well nailed into adjacent framing in order to resist lateral movement.
14. Provide solid blocking for wood columns and multiple studs through floors to supports below.
15. Provide 4x10 headers, or double 2x10 headers over and one trimmer and one king stud each side of all openings 5 feet or less
in width in stud bearing walls not detailed otherwise.
16. Provide 4x10 headers, or double 2x10 headers over and two trimmers and one king stud each side of all openings greater than
5 feet in width in stud bearing walls not detailed otherwise.
17 Provide 4x8 headers, or double 2x8 headers over and double studs each side of all openings in non structural stud walls not
detailed otherwise.
18. At joist areas: Provide solid blocking at bearing points and at intermediate bearing locations. Provide double joists under all
load bearing partitions. Provide double joists each side of openings unless detailed otherwise.
19. Provide double Joist headers and double joists each side of all openings in floors and roofs unless detailed otherwise.
20. Toenail joists to supports with 2 16d nails, 2 10d box nails for TJI joists.
21 Attach joists to flush headers and beams with Simpson 'U' series metal joist hangers to suit the joist size.
22. All wood stud walls shall have lower wood plate attached to wood framing below with 16d nails at 12' o.c. staggered, unless
otherwise noted in the shearwall schedule.
23. Plywood roof and floor sheathing unless otherwise noted on plan shall be laid up with face grain perpendicular to supports
and nailed with 8d nails 6' o.c. to framed panel edges and over stud walls shown on the plans 12' o.c. to Intermediate
supports. Provide approved plywood clips 16' o.c. at unblocked roof sheathing edges. Provide solid blocking at lines of
support at floors. Toenail blocking to supports with 16d 12' o.c. unless otherwise noted in the shearwall schedule.
24. Provide continuous solid blocking at mid height of all stud walls over 10' in height unless wall is blocked per shear wall note.
25. Plywood wall sheathing for noted shear walls shall have solid blocking at all sheathing panel edges. See shear wall schedule
for further notes.
Marls Sheeting Fastener spacing
O all edges
(Blocked)
7/16" OSB 8d 0 6" OC
OR
15 GA 04" OC
O
7/16" OSB 8d 0 4" OC
OR
15 GA "OC
1/2" CDX
plywood
1/2" CDX
plywood
1/2" CDX 10d 0 2" OC
plywood
1/2" GWB 5d COOLER 0 4' OC
both sides OR
5d GWB 0 4 OC
578' GWB 6d COOLER 0 4" OC
both sides OR
6d GWB 0 4' OC
Notes:
1. ALL NAILS SHALL BE GALVANIZED BOX NAILS OR
8d common 0.131 olio X 2 -1/2 min.
10d common 0.148'dia X 3 "min.
8d box 0.113'dio X 2 -1/2 "min.
10 box 0.128 "dia X 3 min.
15 GA. staple 0.072 "dia X 1 -1/2" min.
2.
PROVIDE APA RATED SHEATHING PLYWOOD OR OSB APA RATED SIDING .303 OF INNER SEAL OSB RATED PANEL SIDING ON ALL
EXTERIOR WALLS AND NAIL PER NOTE 1.
3 SPECIFIED SHEATHING AND SIDING PANEL EDGES SHALL BE BACKED WITH 2' OR 3" FRAMING (PER THE TABLE) INCLUDING
FOUNDATION SILL PLATES, VERTICAL FRAMING, AND BLOCKING. PANELS MAY BE INSTALLED EITHER HORIZONTALLY OR
VERTICALLY (SEE NOTE 4 FOR EXCEPTION). NAILS SHALL BE STAGGERED FOR 3' FRAMING.
4 7/16" OSB MAY BE SUBSTITUTED FOR 1/2' CDX PLYWOOD IF FRAMING IS SPACED AT 16" ON CENTER, OR PANELS ARE APPLIED
WITH LONG DIMENSION ACROSS STUDS FOR FRAMING SPACED AT 24" (BLOCKED).
5 WHERE PANELS ARE APPLIED ON BOTH FACES OF A WALL AND NAIL SPACING IS LESS THAN 6 INCHES ON CENTER ON EITHER
SIDE, PANEL JOINTS SHALL BE OFFSET TO FALL ON DIFFERENT FRAMING MEMBERS OR FRAMING SHALL BE 3 —INCH NOMINAL AND
NAILS ON EACH SiDE SHALL BE STAGGERED.
6.
7
CLA WSON
SHEARWALL
NOTES
8d 0 3" OC
OR
15 GA 02- 1/2 OC
10d O 3" OC
SHEAR WALL SCHEDULE 1„ 7
aottom plate nailing dt Anchor Bolts
doubled stud solicin°
Sheeted Sheeted Sheeted Sheeted
one side I both sides I one side I both sides
intermediate
framing nail
spacing
8d 06 "OC
for stud framing 0 24"
8d 012" OC
for stud framin 016"
8d 0 6" OC
for stud framing 0 24"
8d 012' OC
for stud faming 016"
8d 0 6" OC
for stud framing 0 24"
8d 012" OC
for stud framing 016"
Framing
backing
size
10d 0 6" OC
for stud framing 0 24"
10d 012 OC
for stud framing 0 16"
1Od 0 6" OC
for stud framing 024"
10d 012 OC
for stud framing 0 16"
5d cooler 0 4" OC 2x
OR
5d GWB 0 4" OC
6d cooler 0 4" OC 2x
6d GYM 04 "OC
3x
or
DBL2x
3x
or
OBL.2x
3x
or
DBL2x
NAILS TO BE DRIVEN FLUSH WITH SHEATHING. DO NOT OVER DRIVE NAILS.
ALL SHEAR PANELS SHALL BE BLOCKED.
2x 240 PLF 2, 3, 6
2 -16d 0 2 -16d 0 1/2 "X10" 5/8" X10' 480 PLF
12 "OC 8 "OC 0 48' 0.C. 0 30" O.C.
2x 350 PLF Z 3, 5, 6
2 -16d 2 -16d 0 5/8 "X10" 5/8" X10" 700 PLF
0 10 "OC 5 "OC 0 40" 0.C. 0 20" 0.C.
COMMON NAILS, FALSE a S EHAL� FIjL1.OW7NG CRITERIA:
O 5d GWB 0.086 "di X 1 -5/8 min.
6d cooler -0092 "dia X 1 -7/8" min.
6d 0148 0.092 "dia X 1 -7/8" min.
16d common 0.162 "dia X 3 -1/2" min.
4SEASONS
490 PLF
2 -16d 2 -16d 0 5/8 "X10" 5/8" X10" 980 PLF
0 7 "OC 3- 1/2 "0C 028" O.C. 0 14" O.C.
3 -16d 3 -16d 0 5/8" X10" 5/8 "X10"
0 6`0C 3'OC 018" O.C. 0 9" O.C.
2 -16d 0 5/8" X10'
12 "OC 048" 0.C.
2 -16d 0 5/8" X10"
10`OC 0 36" O.C.
Maxiumum Notes
allowble
shear
600 PLF
2 -16d 2 -16d 0 5/8 "X10" 5/8" X10" 1200 PLF
0 6 "OC 3 "0C 0 24" 0.0. 012" O.C.
770 PLF
1540 PLF
300 PLF
375 PLF
DATE: APRIL 2007
SCALE. NONE
DRAWN BY DJP
ENGINEERING, INC (360) 452 -3023 CHECKED:
619 S. Chase St. Port Angeles, WA 98362 SHEET:
2,3,
2,3,
2,3,5,6
3, 6
3, 6
Residence
Daniel Clawson,
225 E. Eleventh:St.
Port Angeles, Wk98362'
2003 IBC WIND ANALYSIS
BUILDING DESCRIPTION
FIRST FLOOR
SECOND FLOOR
ROOF HEIGHT
AVERAGE HEIGHT OF BUILDING
A 1 2.4 1
WIND EXPOSURE 1B
WIND SPEED 1100 MPH
ROOF PITCH 1
P
P3 XIW1
AREA A, p,30
AREA B ps30
AREA C ps30
AREA D ps30
AREA E, ps30
AREA F ps30
AREA G, ps30
AREA H, ps30
E oh
G oh
COMPONENTS
ZONE 1 20sgft
ZONE 2, 20 sqft
ZONE 3 20sgft
EAVES Z3
AREA
10 1
IIW
1 001
1 001
1 001
1 001
1.001
1.00 i
1 00
1 00
1 00
1 00
1 00
1.00
1.00
1.00
3
WIDTH LENGTH LEAST DIM
0,1 241
5
18
3
121 39.811
2A =I 6.0
1LC1 p,3o ILC1,P, ILC
1 17.81 17.801 17.8
11 12.21 12.201 12.2
11 14.21 14.20 14.2
11 9.81 9.80 9.8
11 1 41 1 40 6.9
11 10.81 10.801 -5.3
11 0.51 0.501 5.9
1 -9.3 -9.30 3.8
1 -6.3 -6.30 -6.3
11 7.21 7.20 7.2
321
11L ;1741 17 101 710
11;_ -`20 -20101 10.10
11. .t,020:1 -20 10 10 10
11`, 49:el 29.60 19.60
t)03 IBC SEISMIC ANALYSIS
S1
Ss
SITE CLASS
Fv
Fa
Sm1
Sms
Sd1
Sds
SEISMIC USE GROUP
SEISMIC DESIGN CATEGORY
LC2,P, 'RESPONSE MODIFICATION FACTOR
17.80JSEISMIC BASE SHEAR COEFFICIENT=
12.201CONNECTION OF SMALL ELEMENTS
14.201SHEAR COEFFICIENT= 0 111
9.80IHORIZONTAL DIAPHRAGMS
6.90ISHEAR COEFFICIENT= 0.1667
5.30IBEARING AND SHEAR WALL
5.90 OUT OF PLANE WALL FORCES
3.80 SHEAR COEFFICIENT= 1 0.3333
6.30IMASONRY AND CONCRETE OUT OF PLANE
7.201SHEAR COEFFICIENT= 1 0 6667
01 LONGEST TRUSS 2 FT OC
121.21 EAVES
'ROOF DEAD LOAD
78.41TRUSS UPLIFT
HURRICANE CLIP
SIMPLIFIED BASE SHE.
0 50
1.25
D
1.50
1 00
0 75
1.25
0 50
0.83
1
D
6 1/2
0 154
JH5
12
2
10
200
Residence
Daniel Clawson
225 E. Eleventh St.
Port Angeles, WA 98362
LATERAL FORCE RESISTING SYSTEM WIND LOADS
(AREA)(PRESSURE)/LENGTH SHEAR
WALL TRIB WIDTH I HEIGHT PS I FORCE LENGTH
SECOND AREA FT I FT PSF I LBS FT
WALLA A ;?.4.0: t 1 '8:0A 17.80 I
B 746 71; ;8. 7 12.20 I
C :1:0 '1.' 5 14.20 I
D I 9.80 I 1464.2 41
WALL B A .:18:0 I„ 5,0 17.80 I
B 12.20 1
C f'4:0::Tiiiti0 14.20 1
D 7 111,i- 9.80 I 996.0
WALL D A 17.80
B 12.20
C 14.20
D 1.- 4 9.80 0.0
WALL E A I 17.80
1B 'im I 12.20
IC 1, I.- 14.20
ID I I 9.80 00
LATERAL FORCE RESISTING SYSTEM WIND LOADS
(AREA)(PRESSURE)/LENGTH SHEAR
WALL TRIB WIDTH I HEIGHT PS FORCE LENGTH
MAIN AREA FT I FT PSF LBS FT
WALLA A 'S'''' 4:0: :.f. 12.6 17.80
B :4'.ii7Y- J. 12.20
C '12:0 't 1 '12:0 14.20
D 1: 9.80 3157.8
WALL B A 80 I iftir 17.80
B .1: 12.20
C 40 I 120 14.20
D Z .i.: 12 L 7 9.80 2390.4 41: I:
WALL C A ,.„t8 1:,, %.6.5', 17.80
B '8:0 1 ,112:10 12.20
C 1: 14.20
D 1.5 ;,,-21; 112.0 9.80 2215.4 24
WALL D IA '10: i 84 17.80
IB 0:::8 P,. 12 12.20
IC 200 14.20
ID "20:0 1/..„,' 9.80 4797 7 24„:,,1'..
WALL E IA IOC '1' 8c,f 17.80
I B kJ' '1 {2; 12.20
IC :5.0 it ..9:C.1,, 14.20
ID II 7 0 I::„„:)0?": 9.80 3915.0 24
SHEAR TRIB
PLF AREA
ROOF
FLOOR
WALL
35.7 !ETC.
ROOF
FLOOR
WALL
24.3 ETC.
ROOF
FLOOR
WALL
#DIV/01 ETC.
ROOF
FLOOR
WALL
#DIV/0! !ETC.
SHEAR TRIB
PLF AREA
ROOF
FLOOR
WALL
77.0 ETC.
ROOF
FLOOR
WALL
58.3 ETC.
ROOF
FLOOR
WALL
92.3 ETC.
!ROOF
FLOOR
WALL
199.9 ETC.
ROOF
FLOOR
WALL
163.1 ETC.
5 3
SEISMIC LOADS
WIDTH I DL
FT I PSF
4:02 f7i
63 I
8
1$.4:.1;.: 17
46 L 6
WIDTH I DL
FT I PSF
16.0, I ‘17
64'
1:' 8
"r„:.„111::
iii L 17
_He:O_
219:7,
8.
1
1°11.80!1‘ 17
SHEAR
COEFF
0.154
0.154
0.154
0.154
SEISMIC LOADS
SHEAR
COEFF
0.154
0.154
0.154
0.154
0.154
SHEAR
LBS
1917.5
1853.2
0.0
0.0
SHEAR
LBS
2996.8
3071.8
1258.0
2847.9
2446.2
SHEAR
PLF
46.8
45.2
#DIV/0!
#DIV/0!
SHEAR
PLF
73.1
74.9
52.4
118.7
101 9
Residence
Daniel Clawson
225 E. Eleventh St.
Port Angeles, WA 98362
Level
SECOND I
Level
MAIN
WALL A
WALL B
WALL C
WALL D
WALL E
WIND
I WALL I SHEAR
IPANELI PLF
WALL A I I 36.3
I A I 47.8
WALL B I I 24.1
1 A I 24.1
WALL D I I 127 4
A I 154.8
B I 154.8
39.6 I 1 321
39.6 I 4 r 32
I I
I WIND I SEISMIC OVERALL
WALLI SHEAR I SHEAR I HEIGHTI WIDTH
PANELI PLF 1 PLF I FT I FT
76.5 73.1 I I 41.3 1
A 1310 125.3 I 12 I',.
B 150.6 144.0 8 ...d 4
WALL E I 67.3
1 A I 67.3
57.9 74.9
A 71.0 91.9
B 116.4 150.6
C 116.4 150.6
C 116.4 150.6
92.3 50.2
A 369.2 200.8
B 369.2 200.8
199.9 118.7
A 342.7 203.4
B 342.7 203.4
163.1 101.9
A 326.3 203.8
B 326.3 203.8
C 326.3 203.8
SEISMIC I OVERALL MINIMUM PIER
SHEAR IHEIGHT' WIDTH HEIGHT I WIDTH
PLF I FT I FT FT I FT
46.8 I 1 41.3 1
61.5 4 1' '31:41: 'f'
45.2 I I 41.31
45.2 4 741,-.31-- ;1
65.2 I I 2 1
79.2 I 4 [L,1 ._81,. ;1-
79.2 4 F` 1:1:751
241
8 1 .41:
8 I 41
8 I 41
PERFORATED SHEAR WALL DESIGN
"I.
MINIMUM PIER
HEIGHT I WIDTH
FT I FT
MAX OPENING I OF WALL
HEIGHT (FT.) I HEIGHT
0
0
MAX OPENING
HEIGHT (FT.)
0
38
0
0
0
0
0
0
0
0
OF FULL
HEIGHT SHTHG.
1
0 I_ „,1A0,. I 1.00 110.6
1.00 110.6
100 I 0.73 I 0.65 100.1
OF WALL I OF FULL
HEIGHT I HEIGHT SHTHG.
42
0 1. 1.
.1
1:00.
'1:00
1 :00
1.00
1.,00.
1 00
RESISTANCE
ADJUSTMENT
FACTOR
1.00 61.5
1.00 45.2
RESISTANCE
ADJUSTMENT
FACTOR
0.97
1.00 144.0
0.95
1.00
1.00
1 00
1.00
1.00
1.00
1.00
1 00
1 00
1.00
DESIGN
SHEAR
PLF
DESIGN
SHEAR
PLF
148.6
SHEAR
WALL
TYPE
NONE
NONE
1
1
1
SHEAR
WALL
TYPE
1
1
158.6 2
150.6 2
150.6 2
150.6 2
263.7 2
263.7 2
244.8 2
244.8 2
233.0 2
233.0 2
233.0 2
WALL DL IROOF DLIFLOOR DL
51 171_
TRIB I TRIB I
ROOF I FLOOR I UPLIFT
FT I FT I LBS.
I
0.0
I I
0.0
....'I
TRIB I TRIB I
ROOF I FLOOR I UPLIFT
FT I FT I LBS.
3
3
5.25
3.5
1-
489.6
428.9
0.0
505.3
912.8
604.7
899.5
931.0
931.0
3952.6
3952.6
2550.7
24871
2482.8
2482.8
2482.8
01 ridge beam -Roof Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
ttii C100"1631 z 12
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: U240
ED. 1800000 psi
User Defined Loads
Dead
Design Checks
Uniform
Max. Value
Allowable
of Allow
Location
Reactions and Bearing
,�;,pcation�
0'
22'
Program Version 8.2 12/17/2004
Main Span: 22' Right Cantilever None
Tributary Width: 12'
Live Load: 0 psf
Allow TL Deflection: U180
F 240 psi
.;psi:.,- p er aF r? i �x. 9
5731 2429.76 112.486 0.836 1 451
5789.22 2715.02 276 11 14667
99 II, 89 It 41 it 76 V
0' 11 11 1/2' 11 11
1 738
1 738
0
Self- weight of member is not included.
Member has an actual /allowable ratio in span 1 of 98 1 E
Design is governed by total deflection.
Governing load combination is Dead +Snow Condition 1 w /Pattern Loads.
Maximum hanger forces: 5731 lb (Left) and 5731 lb (Right).
22'
Slope: 0:12
Snow Load: 25 psf
DOL. 1 150
F 2400 psi
5731 .4 S'
5731
17
\e..)so t.
Page 1
1034 53 04/02/07
Designed by Donna Petersen P E.
Checked by
98
40 4 4 TKr' A E .,s.
02 ridge beam -Roof Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson 225 E. Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow. LL Deflection: L/240
Eb. 1800000 psi
User Defined Loads
Dead
Design Checks
Max. Value
Allowable
of Allow
Location
Reactions and Bearing
aS'itppo atror?
ft
0
19'6'
Program Version 8.2 12/17/2004
Uniform
1.54
1.54
att
Main Span: 19'6'
Tributary Width: 12'
Live Load: 0 psf
Allow TL Deflection: L/180
F 240 psi
0'
Reat
5079.75 1908.92 98.383
5131.39 2747.97 276
99 69 W 36 V
0' 9'9' 1'1 -1/2'
5079.75
5079 75
Self- weight of member is not included.
Member has an actuaVallowable ratio in span 1 of 69
Design is governed by bending fb /Fb.
Governing load combination is Dead +Snow Condition 1 w /Pattern Loads.
Maximum hanger forces: 5079.75 lb (Left) and 5079.75 lb (Right).
20'
Designed by Donna Petersen P E.
Checked by
Right Cantilever None
Slope: 0:12
Snow Load: 25 psf
DOL. 1 150
Fb. 2400 psi
LGI
17
0.516.
0.975
52
9'9'
Page 1
10 04/02/07
0.8961
1.3
68 le
9 '9'
Input Data
fit! sir
7.4Fe
Max. Value
Allowable
of Allow
Location
03 floor beam kitchen-Floor Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: U360
Eb. 1300000 psi
User Defined Loads
10:0,4*It
p 4510.411.01016
A
t
Dead
Design Checks
Reactions and Bearing
0'
8'
Program Version 8.2 12/17/2004
.4461:0**0
Main Span: 8'
Tributary Width: 9'
Live Load: 40 psf
Allow TL Deflection: L/240
(3 in Maximum)
F 170 psi
Uniform
x
---00,0 toBA' TA q 1 of t..4
2092 606.896 49.358
5156.59 875 170
41 Ile 69 i 29 ti
0' 4' 72-1/2'
4 1 .0040:010
1W'•
1.5 209'2
1.5 2092
Self-weight of member is not included.
Member has an actual/allowable ratio in span 1 of 69 te%.
Design is governed by bending fb/Fb.
Governing load combination is Dead+Floor Live w/Pattern Loads.
Maximum hanger forces: 2092 lb (Left) and 2092 lb (Right).
Designed by Donna Petersen P E.
Checked by
Right Cantilever None
Slope: 0
Snow Load: 0
DOL. 1.000
Fb. 875 psi
8' 10
Page 1
17.28.14 04/05/07
p
"End
ift
utiek view.
q.
4.01
-0.0944
0.2667
24 if
4'
0.4
23'
4'
Input Data
04 floor beam kitchen/hall-Floor Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles,
WA 98362
Job. Clawson Construction
Client: Clawson Construction
V iiikAlt,„:
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: L/360
4
Max. Value
ft-
Eb. 1300000 psi
User Defined Loads
"040:40f
4 t
Dead
Design Checks
2222.6
Allowable 5156.59
of Allow
Location
Reactions and Bearing
*7
0'
8'6'
43
Program Version 8.2 12/17/2004
Uniform
0
ittga a Lara m
Main Span: 8
Tributary Width: 9'
Live Load: 40 psf
Allow TL Deflection: U240
(3 in Maximum)
F. 170 psi
4 X
685.081
875
78b
4'3'
Self-weight of member is not included.
Member has an actual/allowable ratio in span 1 of 78 te%.
Design is governed by bending fb/Fb.
Governing load combination is Dead+Floor Live w/Pattern Loads.
Maximum hanger forces: 2222.6 lb (Left) and 2217.9 lb (Right).
4 jr
1.5 2222.6
1.5 2217.9
Designed by Donna Petersen P E.
Checked by
Right Cantilever None
Slope: 0
Snow Load: 0
DOL. 1.000
Fb. 875 psi
52.989
170
31 11
71-112'
Page 1
17.27 48 04/05/07
TrOOk
-4
-0.0828 -0 1202
0.2833 0 425
29 to 28
4'2-2/2' 4'2 2/2'
05 ridge beam closet -Roof Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson 225 E Eleventh St. Pt Angeles
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
Oyes iiyofr( ,4; :N+ 0„,)
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: U240
Eb. 1600000 psi
User Defined Loads
Dead
Design Checks
c, f
yYa'4Y n °J
Max. Value 1475.5
Allowable 2812.69
of Allow 52 V
Location 0'
Reactions and Bearing
on
0'
13'
Program Version 8.2 12/17/2004
Type•
Uniform
Main Span: 13'
Tributary Width: 5'
Live Load: 0 psf
Allow TL Deflection. U180
F 180 psi
earing1
1.5
1.5
Df'stance(s) tc
stmt:
0'
909.345
1035
88 V
6'6'
;eacion
<u`Ib: fi
1475.5
1475.5
Load
;Cepg�h.
ft
22'
sSF19ar�
56.828
207
27
12'3/4'
Self- weight of member is not included.
Member has an actuaVallowable ratio in span 1 of 88 Vb/b.
Design is governed by bending fb /Fb.
Governing load combination is Dead +Snow Condition 1 w /Pattern Loads.
Maximum hanger forces: 1475.5 lb (Left) and 1475.5 lb (Right).
Designed by Donna Petersen P E
Checked by
Right Cantilever None
Slope: 0:12
Snow Load: 25 psf
DOL. 1 150
Fb. 900 psi
-0.141
0.65
21V
6'6'
Page 1
08 30'06 04/04/07
Load
eft'
0.2561
0.8667
29 V
6'6'
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
'`hclif(3 „,Na.`D:oulasi
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: U240
Eb. 1600000 psi
User Defined Loads
Dead
Dead
ck case:
r�.
vaJ
Design Checks
Max. Value
Allowable
of Allow
Location
Reactions and Bearing
iart;.LOOaf�iyn:
0'
10'
Load=
Triti
a
Uniform
Concentrated
Self- weight of member is not included.
Member has an actual/allowable ratio in span 1 of 67 le
Design is governed by bending fb /Fb
Governing load combination is Dead +Snow Condition 1 w /Pattern Loads.
Maximum hanger forces: 1767.5 lb (Left) and 1767.5 lb (Right).
Program Version 8.2 12/17/2004
06 roof header closet -Roof Beam
0'
Main Span: 10'
Tributary Width: 4'6'
Live Load: 0 psf
Allow TL Deflection: L/180
F 180 psi
At not 0,,t 4?C:` n, S44t
1767.5 791 704 50.
4219.03 1190.25 207
42 IC 67 24 le
5' 9'3/4
nom•
1.5
1.5
0'
5'
;R e�ctio�ri
1767.5
1767.5
Obit
Designed by Donna Petersen P E.
Checked by
Right Cantilever None
Slope: 0:12
Snow Load: 25 psf
DOL. 1 150
Fb. 900 psi
goad., 'L;oaii at, ;Load:at
°�L0140. 340' Evil
ft'" 'pW 0
22' 17
1475
Page 1
08 39'33 04/04/07
3f1
Mfr.
0.0296 0.1164
0.5 0 6667
5 I 17?
5' 5'
07 carry rafter -Roof Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson 225 E. Eleventh St. Pt Angeles
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 17 psf
Allow LL Deflection: L/240
Eb. 1600000 psi
User Defined Loads
Dead
Design Checks
Concentrated
Max. Value 1226.53
Allowable 4219 03
of Allow
Location
Reactions and Bearing
144aioii:
ogglapnr» -arstriPmg,
Main Span: 157 7/16'
Tributary Width: 2'
Live Load: 0 psf
Allow TL Deflection: U180
F 180 psi
eta Orl=
29 it
0'
'0 40
749.635
931.5
80
6'6 -3/32'
0
157 7/16'
1.5
1.5
eauctloFi-: t:,
1226.53
1000.23
Self- weight of member is not included.
Member has an actuaVallowable ratio in span 1 of 80 to
Design is governed by combined stress NDS 3.9 -3.
Governing load combination is Dead.
Maximum hanger forces: 1226.53 lb (Left) and 1000.23 lb (Right).
Program Version 8.2 12/17/2004
30.105
162
19
11 1/4'
Designed by Donna Petersen P E.
Checked by
Right Cantilever None
Slope: 10:12
Snow Load: 25 psf
DOL. 0.900
Fb. 900 psi
1767.5
:sal.
0.0462
0.781
5
7'6 -5/16'
Page 1
11:26:20 04/04/07
.em
0.2972
1 0414
28 11
7'6-5/16'
08 wall studs -Wall Column
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
Span
Span 1
Overall Length
Notes.
Lengths are to center line of bearing.
Elevation Angle is 90 deg.
Bottom is considered to be pinned.
User Defined Loads
Horizontal Vertical Actual Axial Axial
Span Span Length Unbraced Unbraced
Length Length Length X Length Y
ft ft ft ft ft
0' 13 13 13 0'
0' 13 13
Notes.
Positive loads act down.
Distances are measured along length of member
Live loads are patterned to 100
Weight of members is not included in the calculations.
Summary of Member Forces Load Combinations
Page 1
13 15:28 04/04/07
Designed by Donna Petersen P E.
Checked by
Load Case Load Component Distance(s) to Load Load at Load at Offset Offset
Type Start Length Start End X Y
ft ft lb lb ft ft
plf pif
Description: Column Load
Dead Concentrated Axial 13' 181 0' 0'
Description: Wind Load
Wind in Pos X Uniform Shear In 0' 13' 20 0' 0'
Plane
Description: Wind Load
Wind in Neg X Uniform Shear In 0' 13' 20 0' 0'
Plane
Description.
Snow Condition I Concentrated Axial 13' 267 0' 0'
Span Axial Shear Shear Bending Bending Torsion Deflection Deflection
Major Axis Minor Axis Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb ft -lb in in
1 -448.0 130.0 422.5 -0.386
Reactions
Support Load Horizontal Horizontal Vertical Moment Moment
Comb Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb
1 Dead +Snow Condition 1 65 0 0 0 448.0 0.0 0.0
2 Dead +Snow Condition 1 65 0 0 0 0.0 0.0 0 0
08 wall studs -Wall Column
4 Seasons Engineering Inc.
Project: Daniel Clawson 225 E. Eleventh St. Pt Angeles
WA 98362
Job Clawson Construction
Client: Clawson Construction
Timber Design 1 Option 1 Check of Member 1 2x6 I
Design Data
Check of Member 1 2x6 w
Material type is No. 2 Douglas Fir -Larch Dimensional
Check for repetitive use? No Top flange bracing is Fully
Braced
Moist use? No
1, 20.8 in ^4
S.,= 7 6 in ^3
Shear CH 1 Snow Ca= 1 15
Side loaded? No
Overstress factor 1
Allowable Floor live load deflection L/360
Allowable Floor total load deflection L/240
(3 in Maximum)
Member weight used in analysis 0 plf
Critical Design Checks
Span 1
Value
Allowable
of Allow
Location
Span I
Span I
Span 1
Program Version 8.2 12/17/2004
Bottom flange bracing is
Fully Braced
Iy 1.5 in^4
Sr 2.1 in ^3
This is not a spaced column
K 1
Lx 13'
KY= 1
Ly
Area 8.25 in ^2
Critical Axial Bending X Bending Y
Reaction psi psi psi
lb
130 54.303
1406.34 561.846
9l 10
0' 6'6'
Co I C, I CL I
1.600 I 1.000 I 1.000 I
Cb I CFb I CF/ I
1 000 I 1.300 I 1.300 I
L/d �I Lid I Ly /d
Limit
50 I 28.36 1 0 1
Cy I Cf
1.000 1 1.000
CPC I CMb
1 100 1 1 000
Shear
psi
Designed by Donna Petersen P E.
Checked by
Ebb, 1.6e +06 psi
Eb 1 6e +06 psi
G assumed as .06E
Fb. 900 psi
F,. 575 psi
F 1350 psi
F,. 625 psi
F 180 psi
Actual density 35 pcf
LL Deft.
in
670.413 0 21.97 0.386
1872 1872 288 0 4333
36 b 0/I 8V 89
6'6' 6'6' 5 -1/2' 6'6'
TL Deft.
in
CM/ I CM, I CMcl I CMc I CME
I 1 000 L 1.000 I 1.000 1 1000 L 1000
Page 2
13 15.28 04/04/07
0.386
0.65
59
6'6'
C, I Cr I CE, 1 CP, I CH CT
1 1 000 I 1 000 I 0.236 I 1 000 I 1.000 1.000
Rb
0
psi FcEy I FbE I KcE I c F' psi
FEE
psi
le+06 I 0.3 I 0.8
Member has an actual/allowable ratio in span 1 of 89 d
Design is governed by live load deflection.
Governing load combination is Dead +0.5 *Snow Condition 1 +Wind in Neg X.
Axial capacity of member is 2458.5 lb
Maximum hanger forces: 130 lb (Left) and 130 lb (Right).
Minimum Bearing
Span Actual Left Support Right Support
Length Min. Bearing Min. Bearing
ft in in
Span 1 13' 1.5 1.5
Locations of maximum stress, moment, etc. are measured from the left end of the member
Bearing across full width of beam is required.
Structural adequacy of supporting members must be confirmed.
Bearing lengths required may be limited by bearing stress on supporting members.
A negative reaction indicates that the beam must be fastened to the support to resist uplift.
See manufacturer's literature for side loaded connection requirements.
Cantilever deflection allowables are based on twice the span length.
09 POST RIDGE Simple Column
4 Seasons Engineering Inc. Page 1
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles, 1508 57 04/04/07
WA 98362
Job Clawson Construction Designed by Donna Petersen P E.
Client: Clawson Construction Checked by
Input Data
Span Horizontal Vertical Actual Axial Axial
Span Span Length Unbraced Unbraced
Length Length Length X Length Y
ft .ft ft ft ft
Span 1 0' 14 14 14 14
Overall Length 0' 14 14
Notes.
Lengths are to center line of bearing.
Elevation Angle is 90 deg.
Bottom is considered to be pinned.
User Defined Loads
Load Case Load
Type
Description: Column Load
Dead Concentrated
Notes.
Positive loads act down.
Distances are measured along length of member
Live loads are patterned to 100
Weight of members is not included in the calculations.
Summary of Member Forces Load Combinations
Span Axial Shear Shear Bending Bending Torsion Deflection Deflection
Major Axis Minor Axis Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb ft -lb in in
10811
0
Reactions
Support
2
Component
Axial
Distance(s) to Load Load at Load at Offset Offset
Start Length Start End X Y
ft ft lb lb ft ft
14 10811 0' 0'
Load Horizontal Horizontal Vertical Moment Moment
Comb. Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb
Dead 0 0 0 0 10811 0 0 0
Dead 0.0 0.0 0.0 0 0
00
00
Design Data
Span I
Value
Allowable 703172
of Allow
Location
Span 1
Span I
Span 1
Program Version 8.2 12/17/2004
09 POST RIDGE Simple Column
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E Eleventh St. Pt Angeles,
WA 98362
Job. Clawson Construction
Client: Clawson Construction
Timber Design 1 Option 1 Design of Member 1 8x8
Design of Member 1 8x8
Material type is No. 2 -Posts Douglas Fir -Larch Heavy Timber
Check for repetitive use? No Top flange bracing is Braced
At Supports
Moist use? No Bottom flange bracing is
Braced At Supports
I,, 263 7 in ^4
Sr 70.3 in ^3
Shear CH 1 Snow Cd 1 15
Side loaded? No
Overstress factor 1
Allowable Floor live load deflection L/360
Allowable Floor total load deflection L/240
(3 in Maximum)
Member weight used in analysis 0 plf
(Based upon best choice 6x8)
CD
0.900
Cb I
1.000
L/d I Limit
50 I
Area 56.25 in ^2
Critical Design Checks
Critical Axial Bending X Bending
Reaction psi psi psi
lb
0 192.196 0
477.675 673.279
0 40 0
0' 14' 14'
C, I CL I Cv I Cm I
1.000 I 0.997 I 1.000 I 1.000 I
CRb I cR I CRe I CMb I
1.000 I 1.000 l 1.000 I 1.0001
LA i L /d I Fce
I psi
22.4 I 22.4 I 777.264 I
l 263 7 in ^4
SY 70.3 inA3
This is not a spaced column
Kx 1
Lx 14'
Ky= 1
Ly 14'
Y
Designed by Donna Petersen P E.
Checked by
Shear
psi
Eb. 1.3e +06 psi
Eby. 1.3e +06 psi
G assumed as 06E
Fb. 750 psi
F,. 475 psi
F 700 psi
Fri 625 psi
F 170 psi
0 0
675 153
0 0
14' 7 1 /2'
Cr I Cr I Cp, I
1 000 I 1.000 I 0.758 I
CMI I CMv I CMel I
1.000 I 1 000 I 1 000
FCE y I FbE I
psi psi
777.264 I 13846.6 I
Actual density 35 pcf
LL De,Jt.
in
0
04667
0
0'
Cp, .I CH
0 758 I 1 000
CMc I CME
1.000 L 1 .000
KcE I e
0.3 I 0.8
TL Deft.
in
Member has an actual/allowable ratio in span 1 of 40
Design is governed by axial fa/Fa.
Governing load combination is Dead.
Axial capacity of member is 26831.2 lb.
Locations of maximum stress, moment, etc. are measured from the left end of the member
Bearing across full width of beam is required.
Structural adequacy of supporting members must be confirmed.
Bearing lengths required may be limited by bearing stress on supporting members.
A negative reaction indicates that the beam must be fastened to the support to resist uplift.
See manufacturer's literature for side loaded connection requirements.
Cantilever deflection allowables are based on twice the span length.
Page 2
15 08 57 04/04/07
0
07
0
0'
CT
1.000
Rb
6.42
F
PSi
630
09 POST RIDGE Simple Column
4 Seasons Engineering Inc. Page 1
Project: Daniel Clawson 225 E. Eleventh St. Pt Angeles, 15 10:23 04/04/07
WA 98362
Job Clawson Construction Designed by Donna Petersen P E.
Client: Clawson Construction Checked by
Input Data
Span 1
Overall Length
Notes.
Lengths are to center line of bearing.
Elevation Angle is 90 deg.
Bottom is considered to be Dinned.
User Defined Loads
Load Case Load
Type
Description: Column Load
Dead Concentrated
Notes.
Positive loads act down.
Distances are measured along length of member
Live loads are patterned to 100
Weight of members is not included in the calculations.
Summary of Member Forces Load Combinations
Span Axial Shear Shear Bending Bending Torsion Deflection Deflection
Major Axis Minor Axis Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb ft -lb in in
1
10811
0
Reactions
Support
2
Span
Horizontal Vertical Actual Axial Axial
Span Span Length Unbraced Unbraced
Length Length Length X Length Y
ft ft ft ft ft
0' 14 14 14 14
0' 14 14
Component
Distance(s) to Load Load at Load at Offset Offset
Start Length Start End X Y
ft ft lb lb ft ft
Axial 14 10811
0' 0'
Load Horizontal Horizontal Vertical Moment Moment
Comb. Major Axis Minor Axis Major Axis Minor Axis
lb lb lb ft -lb ft -lb
Dead 0 0 0.0 10811 0 0.0 0 0
Dead 00 00 00 00 00
09 POST RIDGE Simple Column
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Design Data
Moist use? No
Timber Design 1 Option 1 Check of Member 1 5 1/8 "x6"
Check
Material type is 3 -DF Column Glulam Weste
Check for repetitive use? No
Ic 92.3 in ^4
S 30.8 in ^3
Shear CH 1 Snow Cd 1 15
Side loaded? No
Overstress factor 1
Allowable Floor live load deflection =11360
Allowable Floor total load deflection L/240
(3 in Maximum)
Member weight used in analysis 0 plf
Critical Design Checks
Critical
Reaction
lb
Span 1
Value 0 351.577
Allowable 4997.21 668.327
of Allow 0 1 53 k
Location 0' 0'
C I C, I CL I
Span 1 0.900 I 1.000 I 0.992 I
Cb I CFb I CFt I
Span 1 1 000 I 1.000 1 1 000 I
L/d I L ,,/d L /d
Limit
Span 1 50 I 28 I 32.78 I
Program Version 8.2 12/17/2004
Axial
psi
of Member 1 5 1/8 "x6'
rn
Top flange bracing is Braced
At Supports
Bottom flange bracing is
Braced At Supports
IY 67.3 inm
Sr 26.3 in ^3
This is not a spaced column
K 1
L 14'
K 1
L 14'
Area 30 75 in ^2
Bending X Bending Y
psi psi
9,'
Shear
psi
0 0
2054.36 2022.3
0kf Ole
0' 0'
C,, I C I C I C I
1.000 11 000 I 1.000 11 000 I
Designed by' Donna Petersen P E
Checked by
Eb, 1 8e +06 psi
Eb I.8e +06 psi
G assumed as .06E
Fb. 2300 psi
F, 1450 psi
F 2300 psi
F 650 psi
F 165 psi
Actual density 35 pcf
LL Defl.
in
0 0
148.5 0 4667
0
07
Ole Ole 0if
6' 0' 0'
CF, l CF, I CH
0 431 I 0.323 I 1 000
CF,, I CMb I CMt I CMv I CMcl I Chit I CME
1000 I 1000 I 1000 L 1.000 I 1 000 1 1.000 I_ 1 000
FcE FcE I FbE I KCE I C
psi psi psi
959.694 I 700 193 I 15549.3 I 0.418 I 0.9
Member has an actual/allowable ratio in span 1 of 53
Design is governed by axial fa/Fa.
Governing load combination is Dead.
Axial capacity of member is 20541 lb
Locations of maximum stress, moment, etc. are measured from the left end of the member
Bearing across full width of beam is required.
Structural adequacy of supporting members must be confirmed.
Bearing lengths required may be limited by bearing stress on supporting members.
A negative reaction indicates that the beam must be fastened to the support to resist uplift.
See manufacturer's literature for side loaded connection requirements.
Cantilever deflection allowables are based on twice the span length.
Page 2
15 10:23 04/04/07
TL Defl.
in
CT
1.000
R,,
8.4
F"
psi
2070
10 PORCH BEAM -Floor Beam
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles,
WA 98362
Job Clawson Construction
Client: Clawson Construction
Input Data
'Clieck°a; .3)) No 2
Left Cantilever None
Check for repetitive use? Yes
Dead Load: 10 psf
Allow LL Deflection: U360
Eb. 1300000 psi
Design Checks
Max. Value 715.625
Allowable 2733.93
of Allow
Location
Reactions and Bearing
r$14 :1ftXci, 0
0'
9'6 -1/2'
26 kl
Program Version 8.2 12/17/2004
0'
Main Span: 9'6 -1/2'
Tributary Width: 3'
Live Load: 40 psf
Allow TL Deflection: L/240
(3 in Maximum)
F 150 psi
1.5
1.5
902.91
1270.75
71
4'9 -1/4'
Self- weight of member is not included.
Member has an actual/allowable ratio in span 1 of 86
Design is governed by live load deflection.
Governing load combination is Dead +Floor Live w /Pattern Loads.
Maximum hanger forces: 715.625 lb (Left) and 715.625 lb (Right).
otler
39.631
150
26 I'
9'1
715.625
715.625
Page 1
15 52 59 04/05/07
Designed by Donna Petersen P E
Checked by
Right Cantilever None
Slope: 0
Snow Load: 0
DOL. 1 000
Fb. 850 psi
0.2759
0 3181
86 It
4'9 -1/4'
LDefl:
jtn,
0.3449
0.4771
72 t1
4'9-1/4'
4 Seasons Engineering Inc.
Project: Daniel Clawson, 225 E. Eleventh St. Pt Angeles
WA 98362
Job. Clawson Construction
Client: Clawson Construction
Input Data
P00010410040104:2449. .ittkentat0.00.W
Left Cantilever None Main Span: 9'6-1/2'
Check for repetitive use? Yes Tributary Width: 5'
Dead Load: 17 psf Live Load: 0 psf
Allow LL Deflection: U240 Allow TL Deflection: U180
Eb. 1300000 psi F 150 psi
Design Checks
Max. Value 1001.88
Allowable 2733.93
of Allow. 37 it
Location o'
Reactions and Bearing
.§40,0490010 1 104
1.5 1001.88
9'6-1/2' 1.5 1001.88
11 PORCH ROOF BEAM-Floor Beam
Self-weight of member is not included.
Member has an actuaVallowable ratio in span 1 of 86 Se%.
Design is governed by bending fb/Fb.
Governing load combination is Dead+Snow Condition 1 w/Pattern Loads.
Maximum hanger forces: 1001.88 lb (Left) and 1001.88 lb (Right).
Program Version 8.2 12/17/2004
Right Cantilever None
Slope: 0:10
Snow Load: 25 psf
DOL. 1 150
Fb. 850 psi
Page 1
15 54 14 04/05/07
Designed by Donna Petersen P E.
Checked by
lb Aop..000,
fOst ‘140.
;,,,4400001 :$11P0,t 1,14Ptiefi.
1461 36 172.5 0 6361
0.4771
55.331 -0.2874 -0.4829
1264.07
86? 32 I 60 le 75
4'9-1/4' 9'1 4'9-1/4 4•9-1/4'