Specifications (18) S ri-032:7&
1 '1165 e [1:511A A v _
STRUCTURAL CALCULATIONS
for
Cascade Plan ..iE.,EIVEI-
Tax Lot ID: 2S109AA00300 JUL 13 2017
Washington County, Oregon CITY OF TIGAR
BUILDING DIVISION
Contractor:
Pacific Lifestyle Homes
(360) 573-8081
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OREGON
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Expires:December 31,2017
Project Number: 3278
May 2, 2017
Index
Structural Information SI-1
Lateral Analysis ....L-1 thru L-12
Framing Analysis. F-1 thru F-11.
6.erSAnne® M.Anderson, P.E.
lig\'' Registered Structural Engineer Washington Oregon California
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`� Phone: (360) 600-6084 Fax: (360) 944-0538
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STRUCTURAL DESIGN INFORMATION
GOVERNING CODE: 2012 International Residential Code(IRC)
2012 International Building Code(IBC)
This engineering pertains to the design of the Lateral Force Resisting System and a
review of the home designer's framing and foundation plans. The home designer is
responsible for making any necessary changes as required by these calculations to
their framing and foundation plans.
1. Dead Load:
A. Roof .15 psf
B. Floor 10 psf
C. Exterior walls ....10 psf
D. Exterior walls with veneer 50 psf
E. Interior walls with gypboard each side 5 psf
2. Floor live load: 40 psf
3. Snow load:
A. Uniformly distributed snow load on roof 25 psf
4. Wind load—based on ASCE 7-10 CH 27 MWFRS Directional Procedure:
A. 3 Second Gust Wind Speed V=140 mph
B. Exposure B
C. Importance factor 1=1.0
D. Topographical Factor Kzt=1.0
E. Wind Directional Factor Kd=0.85
F. Structure classified as enclosed
5. Seismic load—based on ASCE 7-10 Section 12.14:
A. Mapped Spectral Acceleration for short periods Ss=1.0
B. Mapped Spectral Acceleration for 1 second period 51 .34
C. Soil Site Class .D
D. Ductility coefficient R=6.5
E. Seismic Design Category D
6. Foundation Soil Properties:
A. Undisturbed sandy silt per IBC 2012 Table 1806.2 .Soil Class#5
B. Maximum vertical bearing pressure 1500 psf
7. Retaining wall lateral loads:
A. Walls free to displace laterally at top 35 pcf
B. Walls restrained against lateral displacement at top 45 pcf
• 8. Concrete:
A. 28 day design strength F'c 3000 psi
B. Reinforcing bars ... ASTM A615,Grade 60
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Date By
Category Project No.
STRUCTURAL INFORMATION 4 53 0 Sheet SI-1
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SEISMIC DESIGN BASED ON ASCE-7-10
12.14 Simplified Alternative Structural Design Criteria for Simple Bearing Wall Systems
SEISMIC BASE SHEAR V 1.2-SDs W (Eq.12.14-11 with F=12)
R
Ss mapped spectral acceleration for S5:= 1.00
short periods(Sec.11.4.1) from USGS web site
Si mapped spectral acceleration for Si:= 0.34
1 second period(Sec.11.4.1)
Fa Site coefficient(Table 11.4-1)
Fa 1.1 Based on Soil
F„ Site coefficient(Table 11.42)
F„:= 1.8 Site Class D
5M5:= Fa•Ss SM5=1.1 (Eq.11.41)
Smi:= F„-St SM1 = 0.61 (Eq.11.4-2)
11.4.4 Design spectrum response acceleration parameters
2SEISMIC
5D5= 3'SMs Svs= 0•� > 050g CATEGORY
2 D PER TABLE 11.6-1
SO1:= 3.5M1 Sot= 0.41
1.2•Svs R:= 6.5 WOOD SHEAR PANELS
R
1.2.0.73
V:_ -•W V:= 0135-W
6.5
12.4 Seismic Load Combinations
E:= 1.3•V (Eq.12.4-3 with redundancy factor=1.3 per 12.34.2)
WSD:= 0.7•E 0.7-1.3.0.135-W 0.123•W WOOD SHEAR PANELS
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SIMPLIFIED WIND AND SEISMIC COMPARISON
WIND
�" -- 7
psf
11
sf
R Wind ease
Ht Shear
ILength L:= 58f t
Height Ht:= 21•ft WIND:= L•H.t•(11•psf+7.psf) WIND=21924 lb
SE ISMIC
Fr 5 Wroof
wail Seismic
ease Shear
Aroof 58•ft•54•ft Wr:= Ar •15•psf+2.(4.5•ft•54•ft)•10•psf Wr=518401b
Wwaiis:= 2.9•ft•54•ft
SEISMIC:= (A1 15 psf+ Wwai s•10•psf)•0.123 SEISMIC=6974.1 lb
WIND GOVERNS DESIGN
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Category Project94-5-15
No. Sheet
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WIND DESIGN IS BASED ON ASCE 7-10 CH.27 MWFRS DIRECTIONAL PROCEDURE
VELOCITY PRESSURE qz:= .00256•Kz•Kzt•Kd•V2-I
EXPOSURE B
WIND SPEED(3 second gust) V3,:= 140 mph
IMPORTANCE FACTOR I:= 1.0
• TOPOGRAPHICAL FACTOR Kit:= 1.0
WIND DIRECTIONAL FACTOR Kd:= 0.85
EXPOSURE COEFFICIENT 0'-15' KZ:= 0.57 qz:= .00256•KZ•Kzt•Kd•V3s2-I qz=24.31
(varies/height) 2
15'-20' KZ:= 0.62 qz:= .00256-K,-Kzt•Kd•V3s •1 qz=26.44
20'-25' KZ:= 0.66 qz:= .00256-K,•Kit•Kd•V3s2•I qz=28.15
25'-30' K.,:= 0.70 qz:= .00256.K,-Ict•Kd•V3s2-I qz=29.85
WIND PRESSURE P:= gz•G•C1, G:= 0.85 Gust factor C1, pressure coefficient
For Working Stress Design Multiply WIND PRESSURE by 0.6 per 1BC 1605.3.1
AT WALLS 0'-15' WINDWARD P,,,:= 0.6-24.31-psf•0.85.0.8 Pw=9.92 psf
LEEWARD PL:= 0.6.24.31•psf•0.85.0.5 PL=6.2 psf
15'-20' WINDWARD Pw:= 0.6.26.44•psf•0.85.0.8 Pw=10.79psf
LEEWARD PL:= 0.6.26.44•psf-0.85.0.5 PL=6.74 psf
AT ROOF 15'-20' WINDWARD PN,:= 0.6.26.44•psf•0.85.0.3 Pw=4.05 psf
LEEWARD Pi_:= 0.6.26.44•psf•0.85.0.6 Pi_=8.09 psf
20'-25' WINDWARD Pw:= 0.6.28.15•psf•0.85.0.3 P,N=4.31 psf
LEEWARD PL:= 0.6.28.15•psf•0.85.0.6 PL=8.61 psf
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WIND DESIGN IS BASED ON ASCE 710 CH. 27 MWFRS DIRECTIONAL PROCEDURE
Cp-0.5 4.058.09-
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PA psf
Cp_-0-6 Assume
0 := 35
14 ft
6.2
9.92
10 ft
Psf psf
t
windward leeward
Roof Loads max roof height garage roof height
Windward 4.05-psf.14-ft=56.7 plf 4.05-psf.12-ft=48.6 plf
Leeward 8.09•psf•14•ft=113.26plf 8.09-psf-12•ft=97.08 plf
Wall loads
Windward 9.92•psf•5-ft=49.6 pif
Leeward 6.2•psf•5•ft=31 plf
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SHEAR WALL DESIGN
Pdi PdI
t1 . �rJdl
. .. "'® P P.= wind
::,
Y: seismic
h
r
L 1 =Hol down
Force
Based on 2012 lSC Basic Load Combinations
0.60+ 0.6W
0.6•D + 0.7•E
Overturning Moment: Mot:= P•h
2
L
Resisting Momant:
Mr:= 0.6-�Wd� + Wwaii) 2
� ) + 0.6 Pd�•L
Mot—
Mr
Holdown Force R:_
L
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Right Elevation Shear Walls
Wind Force P:= 72801b P—7280 lb
Length of wall L:= 5•ft•2+7ft+ 13ft+4ft+ 6ft L=40ft
P v=182plf0
Shear v:= L
4-ft Mot=65521 b•ft
Overturning Mot P•9•ft•
40-ft
Moment
(4 ft)2
Resisting Mr:= .6•(15•psf•6•ft+ 10•psf•9•ft)• 2 + 500•lb•4•ft
Moment
Mr=28641b•ft
Mot— Mr
Hoidown4ft =9221b
Force
Left Elevatbn Shear Walls
Wind Force P:= 7280•1b P=7280 Ib
Length of wall L:= 18•ft+ 16-ft+ left L=50 ft
P
Shearv:= L v=145.6pIf 0
Overturning 18•ft
Moment
Mot:_ P•9•ft•50•ft Mot=23587.2lb•ft
(18ft)2
Resisting Mr:= .6.(15•psf•6•ft+ 1O•psf•9•ft)• + 500•Ib•18•ft
2
Moment
Mr=26496ib•ft
Mot— Mr
Holdown =—161.6 lb
Force 18•ft
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Shear Walls at Front Elevation
Wind Force P:= 7684.1b
Length°Nall l L:= 2•ft•2+4ft•2+ 3ft•2 L=18ft
P
Sh ear v:_ L v=426.89 plf 0
Overturning 3
Moment M"t P•9•ft•i8 Mot=11526lb•ft
Resisting (3•ft)2
Moment Mr .6•(15•psf•3•ft+10•psf•9•ft)• 2 + 500•lb•3•ft Mr=1864.51b-ft
Ma—(Mr)
Holdown 3 ft =3220.5 lb 011 f
Force
S ear Walls at Rear Elevation
Wind Force P:= 7684-lb P=76841b
Length of wall L:= 4•ft•2+ 3•ft•4 L=20ft
P
Shear v:_ -- v=384.2 plf =.J
L
Overturning 4
Moment Mot P'9'ft'20 Mot =13831.2lb•ft
(4.ft)2
Resisting Mr:= .6•(15•psf•6•ft+10•psf•9•ft)• 2 + 500-lb-4-ft
Moment
Mr=2864lb•ft
Mot —(Mr)
Holdown 4 ft =2741.8 lb 4
Force
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Project PLM ii 12.- Date By
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LATERAL ANALYSISProject No. Sheet
4'530
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CALCULATE MAXIMUM UPLIFT ON GIRDER TRUSS Vas:— 140•mph Exp•5
ASCE 7-10 CH.28 MWFRS ENVELOPE PROCEDURE
P:= gh.[(GCpf) —(Gcpf)]
MEAN ROOF HT=30 ft(max) 0 := 26.6
Kz:= 0.70 Kzt:= 1.0 Kd:= 0.85 V:= 140 I:= 1.0
qh:= .00256•Kz•Kit•Kd•V2.1 qh=29.9 psf
G•CPf FIG 28.4-1 0 := 20 GCpf:= —0.69 (Zone 3E)
0 := 30 GCpf:= —0.53 (Zone 3E)
0 := 25 GCpf:= —0.61 GCp;:= 0.18
P:= gh•[(GCp f) —(GCpi)] P=—23.6 psf
USING LOAD COMBINATION 16-15: 0.6D+0.6W
MAX NET UPLIFT-USE ROOF DEAD LOAD =12 PSF
lb
W:= 0.6.12•psf— 0.6.23.6.psf W=—7---7.uplift
ft
MAX UPLIFT AT END OF GIRDER TRUSSES:
a.22'NO4: TRIBUTARY AREA At:= 11•ft•25•ft At=275ft2
UPLIFT U := At•W U =—1914 lb
USE(2)Simpson MTS20 Straps
b. 60'A16: TRIBUTARY AREA At:= 5•ft•30ft At=150 ft2
UPLIFT U:= At•W U =—1044 lb
USE(2)Simpson MTS20's
c. 12'K03: TRIBUTARY AREA At:= 6•ft•22•ft At=132ft2
UPLIFT U := At•W U =—918.7 lb
USE(2)Simpson H2.5a's
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Date By
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CALCULATE MAXIMUM UPLIFT ON TYPICAL SINGLE PLY TRUSS BASED ON ASCE 7-10 CH.30
P:= qh•[{GCp) - (Gc1)] EQ 30.4-1: Low Rise Building for Roof Slope 312 or Greater
GCpi = 0.18
G-CP From Fig 30.4-2 (Effective Wind Area=EWA)
Span 2
Truss Span =18ft or more: Span:= 18ft EWA:= Span- 3 EWA=108ft
GCp2:= -1.2 (Zone 2) GC0:= -0.8 (Zone 1)
GCS:= .5-GCp2+ .5•GCS, GCS=-1 (Average for Zon es 1&2)
VELOCITY PRESSURE qh:= .00256-Kr-KZt•Kd-V2-I (Eq.6-15)
WIND SPEED Vas:= 140 mph EXPOSURE B
IMPORTANCE FACTOR I:= 1.0 TOPOGRAPHICAL FACTOR KA:= 1.0
WIND DIRECTIONAL FACTOR Kd:= 0.85
EXPOSURE COEFFICIENT Kz=0.70 (Table 303-1,Exposure B,Case 1)
UPLIFT PRESSURE=P (based on mean roof height of 30 feet or less)
KZ:= 0.70 P:= .00256-Kr-KA i d-V3s2•I.[(GCP) -(GC )] P=-35.2 psf
USING IBC LOAD COMBINATION 16-11:.6D-.6W MAX NET UPLIFT=W
lb
W:= 0.6.15•psf- 0.6.35.2psf W=-12.1-- uplift
ft
MAX UPLIFT AT END OF TYPICAL 60'TRUSSES-A02,A04,A06...
TRIBUTARY AREA At:= 30-ft-2-ft At=60ft2
UPLIFT U:= At•W U =-727.21b USE(1)Simpson H10.5a's
MAX UPLIFT AT END OF TYPICAL 50'TRUSSES-A13...
TRIBUTARY AREA At:= 25-ft-2-ft At=50 ft2
UPLIFT U := At•W U =-606 lb USE(1)Simpson H2.5a's
€t' Project Date By
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'� 21608 N .49th Circle Vancouver Washington 98682
'11 .,�0�' .EPhone: (360) 600-6084 Fax: (360)944-0538
a
page
Project: Anne Anderson
Location:Beam A Anderson Structural Engineering
Multi-Loaded Multi-Span Beam V ��Y`3 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)] Vancouver,WA 98682
5.5 IN x 11.5 IN x 9.75 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 10/23/2015 8:36:39 AM
Section Adequate By:1.4%
Controlling Factor:Moment LOADING DIAGRAM
DEFLECTIONS Center
Live Load 0.12 IN L/984
Dead Load 0.07 in
Total Load 0.19 IN L/618
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:L/240
REACTIONS A
Live Load 2584 lb 2584 lb
Dead Load 1529 lb 1529 lb
Total Load 4113 lb 4113 lb w
Bearing Length 1.20 in 1.20 ins
I BEAM DATA Center
Span Length 9.75 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 9.75 ft
Live Load Duration Factor 1.15 UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 530 plf
MATERIAL PROPERTIES Uniform Dead Load 300 plf
#2-Douglas-Fir-Larch Beam Self Weight 14 plf
Base Values Adjusted Total Uniform Load 844 plf
Bending Stress: Fb= 875 psi Fb'= 1006 psi
Cd=1.15 CF=1.00
Shear Stress: Fv= 170 psi Fv'= 196 psi
Cd=1.15
Modulus of Elasticity: E= 1300 ksi E'= 1300 ksi
Min.Mod.of Elasticity: E_min= 470 ksi E_min'= 470 ksi
Comp.l to Grain: Fc- = 625 psi Fc- = 625 psi
Controlling Moment: 10026 ft-lb
4.87 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: 4113 lb
At left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Rea'd Provided
Section Modulus: 119.56 in3 121.23 in3
Area(Shear): 31.56 in2 63.25 in2
Moment of inertia(deflection): 270.65 in4 697.07 in4
Moment: 10026 ft-lb 10166 ft-lb
Shear: 4113 lb 8244 lb
F1
Project: page
fe>, Anne-Anderson
Location:B i Anderson Structural Engineering
Multi-Loaded Multi-Span Beam ` 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)1 Vancouver,WA 98682
3.5 IN x 9.25 IN x 10.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 9/30/2015 11:46:06 PM
Section Adequate By: 1.5%
Controlling Factor:Moment LOADING DIAGRAM
DEFLECTIONS Center
Live Load 0.18 IN U657
Dead Load 0.07 in
Total Load 0.25 IN U484
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:L/240
REACTIONS 64
Live Load 1500 lb 1500 lb
Dead Load 535 lb 535 lb
Total Load 2035 lb 2035 lb
Bearing Length 0.93 in 0.93 in
BEAM DATA Center loft
Span Length 10 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 10 ft
Live Load Duration Factor 1.15 UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 300 plf
MATERIAL PROPERTIES Uniform Dead Load 100 plf
Beam Self Weight 7 plf
#2-Douglas-Fir-Larch Total Uniform Load 407 plf
Base Values Adiusted
Bending Stress: Fb= 900 psi Fb'= 1242 psi
Cd=1.15 CF=1.20
Shear Stress: Fv= 180 psi Fv'= 207 psi
Cd=1.15
Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi
Min.Mod.of Elasticity: E_min= 580 ksi E_min'= 580 ksi
Comp.-L to Grain: Fc- = 625 psi Fc- = 625 psi
Controlling Moment: 5088 ft-lb
5.0 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: 2035 lb
At left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Read Provided,
Section Modulus: 49.16 in3 49.91 in3
Area(Shear): 14.75 in2 32.38 in2
Moment of Inertia(deflection): 126.54 in4 230.84 in4
Moment: 5088 ft-lb 5166 ft-lb
Shear: 2035 lb 4468 lb
page
Project:
Anne Anderson
Location:3 Anderson Structural Engineering
-
Multi-Loaded Multi-Span Beam rf 21608 NE 49th Circle
or
(2009 International Building Code(2005 NDS)] Vancouver,WA 98682
3.5 IN x 9.25 IN x 8.5 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 10/1/2015 10:36:01 AM
Section Adequate By:85.7% LOADING DIAGRAM
Controlling Factor:Shear
DEFLECTIONS Center
Live Load 0.05 IN U1971
Dead Load 0.02 in
Total Load 0.08 IN L/1334
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:L/240
REACTIONS A
Live Load 294 lb 1706 lb 2
Dead Load 159 lb 700 lb
Total Load 453 lb 2406 lb
BearingLength 0.21 in 1.10 in m. .
9 , � � �: ,wn., .
BEAM DATA Center 8.5 rt
Span Length 8.5 ft •
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 8.5 ft
Live Load Duration Factor 1.15 UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 0 plf
MATERIAL PROPERTIES Uniform Dead Load 0 plf
#2-Douglas-Fir-Larch Beam Self Weight 7 plf
Total Uniform Load 7
Base Values Adjusted Of
Bending Stress: Fb= 900 psi Fb'= 1242 psi POINT LOADS-CENTER SPAN
Cd=1.15 CF=1.20 Load Number One Two
Shear Stress: Fv= 180 psi Fv'= 207 psi Live Load 500 lb 1500 lb
Cd=1.15 Dead Load 300 lb 500 lb
Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi Location 6.5 ft 7.5 ft
Min.Mod.of Elasticity: E_min= 580 ksi E_min'= 580 ksi
Comp.-i-to Grain: Fc--L= 625 psi Fc--L'= 625 psi
Controlling Moment: 2782 ft-lb
6.46 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: -2406 lb
8.0 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Read Provided,
Section Modulus: 26.88 in3 49.91 in3
Area(Shear): 17.44 in2 32.38 in2
Moment of Inertia(deflection): 42.16 in4 230.84 in4
Moment: 2782 ft-lb 5166 ft-lb
Shear: -2406 lb 4468 lb
page
Project: Anne Anderson
Location:GDHR 1di., Anderson Structural Engineering
Multi-Loaded Multi-Span Beam - 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)1 °' Vancouver,WA 98682
3.5 IN x 12.0 IN x 16.0 FT
24F-V4-Visually Graded Western Species-Dry Use StruCalc Version 8.0.113.0 9/30/2015 11:49:47 PM
Section Adequate By:49.6%
Controlling Factor:Deflection LOADING DIAGRAM
DEFLECTIONS Center
Live Load 0.35 IN L/549
Dead Load 0.19 in
Total Load 0.53 IN L1359
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:U240
REACTIONS A 2
Live Load 1019 lb 1881 lb
Dead Load 679 lb 967 lb
1 Total Load 1698 lb 2848 lb W
I Bearing Length 0.75 in 1.25 in -4 r x
�7Fx �L: � ..w..3 �,-t' tux t .�'�;C'A f t�'..a 4 -v.
BEAM DATA Center
Span Length 16 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 16 ft
Live Load Duration Factor 1.15 UNIFORM LOADS Centel
Camber Adj.Factor 1.5 Uniform Live Load 50 pif
Camber Required 0.28 Uniform Dead Load 50 plf
I Notch Depth 0.00 Beam Self Weight 9 plf
MATERIAL PROPERTIES Total Uniform Load 109 plf
24F-V4-Visually Graded Western Species POINT LOADS-CENTER SPAN
Base Values Adjusted Load Number One Two
Bending Stress: Fb= 2400 psi Controlled by: Live Load 600 lb 1500 lb
Fb_cmpr= 1850 psi Fb'= 2760 psi Dead Load 200 lb 500 lb
Cd=1.15 Location 12 ft 11 ft
Shear Stress: Fv= 265 psi Fv'= 305 psi
Cd=1.15
Modulus of Elasticity: E= 1800 ksi E'= 1800 ksi
Min.Mod.of Elasticity: E_min= 930 ksi E_min'= 930 ksi
Comp.l to Grain: Fc-L= 650 psi Fc-L'= 650 psi
Controlling Moment: 12015 ft-lb
11.04 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: -2848 lb
At right support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Req'Q Provided
Section Modulus: 52.24 in3 84 in3
Area(Shear): 14.02 in2 42 int
Moment of Inertia(deflection): 336.84 in4 504 in4
Moment: 12015 ft-lb 19320 ft-lb
Shear: 2848 lb 8533 lb
r-Lo
Project: Anne�,, ;on page
Location:HDR1 _c-rzi7:11A to Anderson Structural Engineering
Multi-Loaded Multi-Span Beam », - 21608 NE 49th Circle of
[2009 International Building Code(2005 NOS)] ' """ Vancouver,WA 98682
3.5 IN x 11.25 IN x 5.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.112.0 6/7/2013 7:19:38 AM
Section Adequate By:7.5% LOADING DIAGRAM
Controlling Factor:Shear
DEFLECTIONS Center
Live Load 0.02 1N U2644
Dead Load 0.01 in
Total Load 0.04 IN 111704
•
Live Load Deflection Criteria:1/360 Total Load Deflection Criteria:L/240 1
REACTIONS A
Live Load 3120 lb 2280 lb
Dead Load 1935 lb 1104 lb
Total Load 5055 lb 3384 lb `f,
Bearing Length 2.31 in 1.55 in
BEAM DATA
Span Length 5 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 5 ft
Live Load Duration Factor 1.15 UNI OR JII LOADS Center
Notch Depth 0.00 Uniform Live Load 0 plf
MATERIAL PROPERTIES Uniform Dead Load 0 plf
Beam Self Weight 9 plf
#2-Douglas-Fir-Larch Total Uniform Load 9 pif
Base Values Adtustqj
Bending Stress: Fb= 900 psi Fb'= 1139 psi POINT LOAD§-CENTER SPAN
Cd=1.15 CF=1.10 Load Number One
Shear Stress: Fv= 180 psi Fv'= 207 psi Live Load 3000 lb
Cd=1.15 Dead Load 2030 lb
Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi Location 1 ft
Min.Mod.of Elasticity: E_min= 580 ksi Emin'= 580 ksi TRAPEZOIDAL LOADS-CENTER SPAN
Comp.-!-to Grain: Fc- = 625 psi Fc-1'= 625 psi Load Number
Qat
Controlling Moment: 5063 ft-Ib Left Live Load 800 plf
Left Dead Load 322 plf
2.0 Ft from left support of span 2(Center Span) Right Live Load 800 plf
Created by combining all dead loads and live loads on span(s)2 Right Dead Load 322 plf
•
Controlling Shear: 5055 lb
At left support of span 2(Center Span) Load Start2 ft
Load End 5 ft
Created by combining all dead loads and live loads on span(s)2 Load Length 3 ft
Comparisons with required sections: Req`d Provided
Section Modulus: 53.37 in3 73.83 in3
Area(Shear): 36.63 in2 39.38 in2
Moment of Inertia(deflection): 58.49 in4 415.28 in4
Moment: 5063 ft-lb 7004 ft-lb
Shear: 5055 lb 5434 lb
F-11
page
Project:
: , Anne Anderson
Location:HDR2 Anderson Structural Engineering
*v,;-1-j /of
Multi-Loaded Multi-Span BeamA 4 ;: 21608 NE 49th Circle
[2009 International Building Code(2005 NDS)] = Vancouver,WA 98682
3.5 IN x 9.25 IN x 5.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 9/30/2015 11:53:50 PM
Section Adequate By:24.6%
Controlling Factor:Moment LOADING DIAGRAM
DEFLECTIONS Center
Live Load 0.03 IN UI970
Dead Load 0.02 in
Total Load 0.05 IN U1188
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:U240
REACTIONS A
Live Load 2000 lb 2000 lb
Dead Load 1318 lb 1318 lb
Total Load 3318 lb 3318 lb w
Bearing Length 1.52 in 1.52 in
t ,rF�f, svc F' .,,4` ,�` -fes,.... .�.
BEAM DATA Center
Span Length 5 ft 11111111111.
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 5 ft
Live Load Duration Factor 1.15 - UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 800 plf
Uniform Dead Load 520 pif
MATERIAL PROPERTIES Beam Self Weight 7 plf
#2-Douglas-Fir-Larch Total Uniform Load 1327 plf
Base Values Adiusted
Bending Stress: Fb= 900 psi Fb'= 1242 psi
Cd=9.15 CF=1.20
Shear Stress: Fv= 180 psi Fv'= 207 psi
Cd=9.15
Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi
Min.Mod.of Elasticity: E_min= 580 ksi E_min'= 580 ksi
Comp.--to Grain: Fc--L= 625 psi Fc-_'= 625 psi
Controlling Moment: 4147 ft-lb
2.5 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: 3318 lb
At left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Req'd Provided
Section Modulus: 40.07 in3 49.91 in3
Area(Shear): 24.04 in2 32.38 in2
Moment of Inertia(deflection): 46.65 in4 230.84 in4
Moment: 4147 ft-lb 5166 ft-lb
Shear: 3318 lb 4468 lb
HI
Project: Paye
Anne Anderson
Location:PB 1 =.k ;•t , Anderson Structural Engineering
Multi-Loaded Multi-Span Beam ''' 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)] Vancouver,WA 98682
5.5 IN x 11.25 IN x 16.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 9/30/2015 11:53:03 PM
Section Adequate By:3.6% LOADING DIAGRAM
Controlling Factor:Moment
DEFLECTIONS Center
Live Load 0.30 IN L/631
Dead Load 0.21 in
Total Load 0.51 IN L/377
Live Load Deflection Criteria:0360 Total Load Deflection Criteria:L1240
REACTIONS A
Live Load 1400 lb 1400 lb
Dead Load 947 lb 947 lb
Total Load 2347 lb 2347 lb w
Bearing Length 0.68 in 0.68 in
BEAM DATA Center
Span Length 16 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 16 ft
Live Load Duration Factor 1.15 UNIFORNLLOADS Center
Notch Depth 0.00 Uniform Live Load 175 plf
MATERIAL PROPERTIES Uniform Dead Load 105 plf
Beam Self Weight 13 plf
#2-Douglas-Fir-Larch Total Uniform Load 293 ptf
Base Values Adiusted
Bending Stress: Fb= 875 psi Fb'= 1006 psi
Cd=1.15 CF=1.00
Shear Stress: Fv= 170 psi Fv'= 196 psi
Cd=1.15
Modulus of Elasticity: E= 1300 ksi E'= 1300 ksi
Min.Mod.of Elasticity: E_min= 470 ksi E_min'= 470 ksi
Comp.-1-to Grain: Fc--L= 625 psi Fc---= 625 psi
Controlling Moment: 9389 ft-lb
8.0 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: -2347 lb
At right support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Read Provided
Section Modulus: 111.97 in3 116.02 in3
Area(Shear): 18.01 in2 61.88 in2
Moment of Inertia(deflection): 415.95 in4 652.59 in4
Moment: 9389 ft-lb 9728 ft-lb
Shear -2347 lb 8064 lb
f-I3
[age
Project: , Anne Anderson
�ocation:PB2 •y ' _• ;$ Anderson Structural Engineering
•
Multi-Loaded Multi-Span Beam w 's 21608 NE 49th Circle
[2009 International Building Code(2005 NDS)] ;'' Vancouver,WA 98682
3.5 IN x 11.25 IN x 12.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 812712015 5:44:27 PM
Section Adequate By:18.4% LOAQINs,DIAGRAM
Controlling Factor:Moment
I DEFLECTIONS Center
Live Load 0.14 IN V1026
Dead Load 0.09 in
Total Load 0.23 1N U/624
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:L/240
REACTIONS A
Live Load 1200 lb 1200 lb
Dead Load 771 lb 771 lb
Total Load 1971 lb 1971 lb
Bearing Length 0.90 in 0.90 in
a tf i
BEAM DATA Center
Span Length 12 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 12 ft
Live Load Duration Factor 1.15 UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 200 pif
MATERIAL PROPERTIES Uniform Dead Load 120 pif
#2-Douglas-Fir-Larch Beam Self Weight 9 Of
base Values Adjusted , Total Uniform Load 329 Of
Bending Stress: Fb= 900 psi Fb'= 1139 psi
Ca=1.15CF=1.10
Shear Stress: Fv= 180 psi Fv'= 207 psi
Cd=1.15
Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi
Min.Mod.of Elasticity: E min= 580 ksi E_min'= 580 ksi
Comp.s-to Grain: Fc- L= 625 psi Fc- = 625 psi
Controlling Moment 5914 ft-lb
6.0 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear: 1971 lb
At left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Reca'4 Provided
Section Modulus: 62.33 in3 73.83 in3
Area(Shear): 14.28 int 39.38 in2
Moment of Inertia(deflection): 159.64 in4 415.28 in4
Moment: 5914 ft-lb 7004 ft-lb
Shear: 1971 lb 5434 lb
F— o�
page
Project:
,Y Anne Anderson
Location:Column 1 ...tiii,„, ," Anderson Structural Engineering
Column 4:4_ ';";_: 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)] Vancouver,WA 98682
5.5 IN x 5.5 IN x 10.0 FT
#2-Douglas-Fir-Larch-Dry Use StruCalc Version 8.0.113.0 9/30/2015 11:58:58 PM
Section Adequate By:28.6% LOADING DIAGRAM
VERTICAL REACTIONS
Live Load: Vert-LL-Rxn= 8000 lb I
hi
Dead Load: Vert-DL-Rxn= 4066 lb , ,
Total Load: Vert-TL-Rxn= 12066 lb B
COLUMN DATA _
l
Total Column Length: 10 ft T'`yam; '
Unbraced Length(X Axis)Lx: 10 ft ,f,
Unbraced Length(Y-Axis)Ly: 10 ft
Column End Condtion-K(e): 1 _ I
Axial Load Duration Factor 1.15
COLL MN PROPERTIES ;rY'
#2 Douglas-Fir-Larch
Base Values Adjusted -y.. 1
Compressive Stress: Fc= 700 psi Fc'= 559 psi Y:°'a
Cd=1.15 Cp=0.69 Cott lr'I:
Bending Stress(X-X Axis): Fbx= 750 psi Fbx'= 863 psi :;-
Cd=1.15 CF=1.00 t.
Bending Stress(Y-Y Axis): Fby= 750 psi Fby'= 863 psi -'
Cd=1.15 CF=1.00 `>'
Modulus of Elasticity: E= 1300 ksi E = 1300 ksi
a�
Min.Mod.of Elasticity: E_min= 470 ksi E_min'= 470 ksi
,
Column Section(X-X Axis): dx= 5.5 in '
Column Section(Y-Y Axis): dy= 5.5 in
Area: A= 30.25 in2 .
Section Modulus(X-X Axis): Sx= 27.73 in3
Section Modulus(Y-Y Axis): Sy= 27.73 in3 A
Slenderness Ratio: Lex/dx= 21.82
Ley/dy= 21.82 AXIAL LOADING
Live Load: PL= 8000 lb
Column Calculations(Controlling Case Only): Dead Load: PD= 4000 lb
Controlling Load Case:Axial Total Load Only(L+D) Column Self Weight: CSW= 66 lb
Actual Compressive Stress: Fc= 399 psi Total Load: PT= 12066 lb
Allowable Compressive Stress: Fc'= 559 psi
Eccentricity Moment(X-X Axis): Mx-ex= 0 ft-lb
Eccentricity Moment(Y-Y Axis): My-ey= 0 ft-lb
Moment Due to Lateral Loads(X-X Axis): Mx= 0 ft-lb
Moment Due to Lateral Loads(Y-Y Axis): My= 0 ft-lb
Bending Stress Lateral Loads Only(X-X Axis): Fbx= 0 psi
Allowable Bending Stress(X-X Axis): Fbx'= 863 psi
Bending Stress Lateral Loads Only(Y-Y Axis): Fby= 0 psi
Allowable Bending Stress(Y-Y Axis): Fby'= 863 psi
Combined Stress Factor: CSF= 0.71
page
Project:
Anne Anderson
Location:Column 2 Anderson Structural Engineering
Column ' } 21608 NE 49th Circle of
[2009 International Building Code(2005 NDS)]
" '� Vancouver,WA 98682
3.5 IN x 5.25INx 10FT
1.8E Parallam Column-iLevel Trus Joist StruCalc Version 8.0.113.0 9/30/2015 11:59:41 PM
Section Adequate By:12.1% -
LOADING DIAGRAM
VERTICAL REACTIONS
Live Load: Vert-LL-Rxn= 7000 lb i
Dead Load: Vert-DL-Rxn= 3057 lb 440
Total Load: Vert-TL-Rxn= 10057 lb B
COLUMN DATA _
Total Column Length: 10 ft
Unbraced Length(X-Axis)Lx: 10 ft
Unbraced Length(Y--Axis)Ly 10 ftt
Column End Condtion-K(e): 1
Axial Load Duration Factor 1.15
COLUMN PROPERTIES ``M
1.8E Parallam Column-iLevel Trus Joist 3r..
Base Values Adjusted r_=;:•
Compressive Stress: Fc= 2500 psi Fc'= 623 psi
Cd=1.15 Cp=0.22 loft
Bending Stress(X-X Axis): Fbx= 2400 psi Fbx'= 3026 psi
Cd=1.15 CF=1.10
Bending Stress(Y-Y Axis): Fby= 2400 psi Fby'= 3026 psi
Cd=1.15 CF=1.10 i,,,
Modulus of Elasticity: E= 1800 ksi E'= 1800 ksi
Column Section(X-X Axis): dx= 5.25 in :
Column Section(Y-Y Axis): dy= 3.5 in -;
Area: A= 18.38 in2
Section Modulus(X-X Axis): Sx= 16.08 in3
Section Modulus(Y-Y Axis): Sy= 10.72 in3
Slenderness Ratio: Lex/dx= 22.86 A
Ley/dy= 34.29
AXIAL LOADING
Column Calculations(Controlling Case Only): Live Load: PL= 7000 lb
Controlling Load Case:Axial Total Load Only(L+D) Dead Load: PD= 3000 lb
Actual Compressive Stress: Fc= 547 psi Column Self Weight: CSW= 57 lb
Allowable Compressive Stress: Fc'= 623 psi Total Load: PT= 10057 lb
Eccentricity Moment(X-X Axis): Mx-ex= 0 ft-lb
Eccentricity Moment(Y-Y Axis): My-ey= 0 ft-lb
Moment Due to Lateral Loads(X-X Axis): Mx= 0 ft-lb
Moment Due to Lateral Loads(Y-Y Axis): My= 0 ft-lb
Bending Stress Lateral Loads Only(X-X Axis): Fbx= 0 psi
Allowable Bending Stress(X-X Axis): Fbx'= 3026 psi
Bending Stress Lateral Loads Only(Y-Y Axis):Fby= 0 psi
Allowable Bending Stress(Y-Y Axis): Fby= 3026 psi
Combined Stress Factor: CSF= 0.88
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Project Date By
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''''4S.
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Category Project No. Sheet("116/44.F--17
CS a0 4 53
AY
21608 N.E.49th Circle Vancouver Washington 98682
r ., %I Phone: (360) 600-6084 Fax: (360)944-0538
ai E�
Page
Project:
Anne Anderson
Location:FBM Anderson Structural Engineering
Multi-Loaded Mutti-Span Beam *47„;44,-.....,71,,r ; 21608 NE 49th Circle or
[2009 International Building Code(2005 NDS)1 Vancouver,WA 98682
1.75 IN x 9.5 IN x 8.0 FT
Versa-Lam 2800 Fb DF-Boise Cascade StruCaic Version 8.0.112.0 9111/2014 8:29:04 PM
Section Adequate By:94.6°fo
LOAD+IG DIAGRAM
Controlling Factor:Moment
DEFLECTIONS Center
Live Load 0.11 IN 0868
Dead Load 0.04 in
Total Load 0.15 IN L/644
Live Load Deflection Criteria:L/360 Total Load Deflection Criteria:L/240
REACTIONS A
Live Load 1200 lb 1200 lb
Dead Load 419 lb 419 lb
Total Load 1619 lb 1619 lb
Bearing Length 1.23 in 1.23 in
BEAM DATA Center
Span Length 8 ft
Unbraced Length-Top 0 ft
Unbraced Length-Bottom 8 ft
Live Load Duration Factor 1.00 UNIFORM LOADS Center
Notch Depth 0.00 Uniform Live Load 300 pit
MATERIAL PROPERTIES Uniform Dead Load 100 plf
Beam Self Weight 5 ptf
Versa-Lam 2800 Fb DF-Boise Cascade Total Uniform Load 405 plf
Base Values Adjusted
Bending Stress: Fb= 2800 psi Fb'= 2874 psi
Cd=1.00 CF=1.03
Shear Stress: Fv= 285 psi Fv'= 285 psi
Cd=1.00
Modulus of Elasticity: E= 2000 ksi E'= 2000 ksi
Comp.-I-to Grain: Fc- = 750 psi Fc = 750 psi
Controlling Moment 3239 ft-lb
4.0 Ft from left support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Controlling Shear. -1619 lb
At right support of span 2(Center Span)
Created by combining all dead loads and live loads on span(s)2
Comparisons with required sections: Beall Provided
Section Modulus: 13.52 in3 26.32 in3
Area(Shear): 8.52 in2 16.63 in2
Moment of Inertia(deflection): 51.83 in4 125.03 in4
Moment: 3239 ft-lb 6304 ft-lb
Shear: 1619 lb 3159 lb
Foundation Design Soil Bearing Pressure
5BP:= 1500-psf (assummad)
continuous foundation footing 12 inches wide with a 6 inch stem that is 18 inches tall.
total engaged area Allowed Load
A:= (16-in+ 6-in+ 16•1n)•12•in
A=3.2ftz
I
Allowed Load SBP•A=4750lb FAIEllpil in.
VAIIIIIIIIIIIIIIIIIIIIMIII
Individual Footings:
Size Area Capacity
1& dameter A:= 9•in•9•4n•3.14 Pali:= 1500•psf•A Pa=2649.41b
24"x24" A:= 24•in•24•in Pari:= 1500•psf•A Pail=6000lb
28'x28" A:= 28•1n•28•1n Pali:= 1500•psf•A Paii =8166.7lb
36'x36" A:= 36-in-36-in Pa:= 1500•psf•A Pell=13500 lb
48'x48" A:= 48•in•48•in Pa:= 1500•psf•A Pan=24000lb
Continuous Footings:
12 inch wide: Capacity 1500 psf X 12 inches=1500 plf
l+ Project p Date By
,4S,S°Ne
�0 X23 q_10,.t5
CategoryVA.0 No. Sheet
�R/aMtnlC� Project F-I 1
to 530
21608 N.E.49th Circle Vancouver Washington 98682
• Phone: (360) 600-6084 Fax: (360)944-0538
End