Specifications (19) rx-\ .-(OQCe)c St-•
GREEN MOUNTVIIN RECEIVED
structural engineering JAN 2 9 2019
CITY OF TIGARD
BUILDING DIVISION
STRUCTURAL CALCULATIONS
Plan 2885
Elderberry Ridge, Lot 30
Tigard, Oregon
Contractor:
Riverside Homes
49 78PE
OREGON
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Project Number: 17485
January 15, 2019
Index
Structural Information
Lateral Analysis L-1 thru L-15
1111
greenmountainse.com- info@greenmountainse.com-4857 NW Lake Rd.,Suite 260 Camas.WA 98607
GREEN MOUNTAIN
IOW structural engineering
STRUCTURAL DESIGN INFORMATION
GOVERNING CODE: 2015 International Residential Code(IRC)
2015 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. Live load:
A. Floor 40 psf
B. Decks&Balconies 60 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=126 mph
B. Exposure B
C. Importance factor I=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 S1=.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 2015 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 40 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
greenmountainse.com—info@greenmountainse.com-4857 NW Lake Rd.,Suite 260,Camas,WA 98607
GREEN MOUNTnIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-1
LATERAL
SEISMIC DESIGN BASED ON ASCE-7-10
1617.5 Simplified analysis procedure for seismic design of buildings
1.2•Sos
SEISMIC BASE SHEAR V:_ •W (EQ.12.14-11 with F=12)
R
SS mapped spectral acceleration for Ss:= 1.00
short periods(Se c.11.4.1) from USGS web site
S. mapped spectral acceleration for := 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 11.4-2)
F := 1.8 Site Class D
SMS:= Fa-Ss SMS=1.1 (Eq.11.4-1)
SMi:= F Si SMi= 0.61 (Eq.11.4-2)
11.4.43 Design spectrum response acceleration parameters
2
SDs 3•SMS SDs= 0.73 > 0.50g
SEISMIC
2 CATEGORY
SDI:= 3•SM1 Spy= 0.41 > 0.20g D per Table 11.6-1
WOOD SHEAR PANELS
1'2•Sps R:= 6.5 Table 952.2
V:_ •W
1.2.0.73
V:_ •W V:= 0.135•W
6.5
12.4 Seismic Load Combinations
E:= 1.3•V (Eq.12.4-3 with redundancy factor=13 per 12.3.42)
WSD:= 0.7•E 0.7.1.3.0.135•W 0.123•W WOOD SHEAR PANELS
GREEN MOUNTAIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-2
LATERAL
SIMPLIFIED WIND AND SEISMIC COMPARISON
WIND _
AL
�A
p£f psf
11111 Wind Sase
Shear
Length L:= 52•ft
Height Ht:= 24•ft WIND:= L•Ht.(11•psf+ 7.4•psf)
SEISMIC WIND= 22963.2 lb
Fr Viroof
F2 — Wfloor Seismic
Wwall
ease Shear
Aroof:= 52•ft•40•ft Aroof= 2080ft2
Afloor= 43•ft•40•ft Afloor= 1720ft2
Wwalls 4.52•ft•20•ft Wwalls= 4160ft2
SEISMIC:_ (Arm{ 15 psf+ Afloor•15•psf+ Wwalls•10•psf)•0.123 SEISMIC= 12127.8 lb
WIND GOVERNS DESIGN
GREEN MOUNTVIIN PROJECT: Riverside - 2885
UP structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-3
LATERAL
WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE
VELOCITY PRESSURE qz:= .00256•KZ•Kzt•Kd•V2•I (Eq.6-15)
EXPOSURE
WIND SPEED(3 second gust) Vas:= 126 mph
IMPORTANCE FACTOR I:= 1.0
TOPOGRAPHICAL FACTOR ICA:= 1.0
WIND DIRECTIONAL FACTOR Kd:= 0.85
(Table 6-4)
EXPOSURE COEFFICIENT 0'-15' Kz:= 0.57 qz:= .00256•Kz•KZt•Kd•V3s2•I qz= 19.69
(varies/height)
15-20' Kz:= 0.62 qz:= .00256•KZ•Kzt•Kd•V3,2•I qz= 21.42
20'-25' Kz:= 0.66 qz:= .00256•Kz•Kzt•Kd•V352•I qz= 22.8
25-30' KZ:= 0.70 qz:= .00256•Kz•Kzt•Kd•V3s2•I qz= 24.18
11
GREEN MOUNTMIN PROJECT: Riverside - 2885
likle structural engineering DATE: 12/4/2017 BY: CM
JOB NO 17485 SHEET: L-4
LATERAL
WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont.
WIND PRESSURE P:= qL•{- Cp G:= 0.85 Gust factor
C, pressure coefficient
AT WALLS For Working Stress Design Multiply WIND PRESSURE by 0.6 per IBC 1605.3.1
0'-15' WINDWARD P„,:= 12.4•psf•0.85.0.8 PW= 8.43 psf
LEEWARD PL := 12.4•psf•0.85.0.5 PL = 5.27 psf
15-20' WINDWARD P := 13.49•psf•0.85.0.8 PW= 9.17 psf
LEEWARD PL := 13.49.psf•0.85.0.5 PL = 5.73 psf
20'-25' WINDWARD Pb,:= 14.36.psf•0.85.0.8 PW= 9.76psf
LEEWARD PL := 14.36.psf•0.85.0.5 PL = 6.1 psf
AT ROOF
0'-15' WINDWARD PW:= 12.4•psf•0.85.0.3 PW= 3.16 psf
LEEWARD PL := 12.4•psf•0.85.0.6 PL = 6.32 psf
15-20' WINDWARD PW:= 13.49-psf 0.85.0.3 PW= 3.44 psf
LEEWARD P := 13.49.psf•0.85.0,6 p =x,88 psf
20 25
WINDWARD PW:= 14.36•psf•0.85.0.3 PW= 3.66 psf
LEEWARD PL := 14.36.psf•0.85.0.6 PL = 7.32 psf
25-30' WINDWARD PW:= 15.23•psf•0.85.0.3 PW= 3.88 psf
LEEWARD PL := 15.23-psf•0.85.0.6 PL = 7.77 psf
GREEN MOUNThIIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-5
LATE RAL
WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont.
Assume
.88
Cp-0. psf p6sf A := 35
/41114‘
7
-1
9.17 1
psf 6.1
psf
9 ft }
Mean Roof Height
18+ 22
= 20
2
Loads at Roof roof-ave
Windward 3.44•psf•5.5•ft= 18.92 p If
Leeward 6.88.psf•5.5•ft= 37.84 plf
Wall loads at upper level at main level
Windward 8.43psf•4 ft= 33.72 p1f 8.43 psf-8.5.ft= 71.66 pIf
Leeward 5.73 psf-4-ft= 22.92pIf 5.73.psf•8.5•ft= 48.71pIf
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GREEN MOUNTAIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-9
LATE RAL
SHEAR WALL DESIGN
Fdl f dl
4, Wdl I
p (s') P:= wind
V:= seismic
h
R=Holdown
Force
Based on 2012 IBC Basic Load Combinations 1605.3.1
0.6D + W (Equation 16-11)
0.6•D + 0.7•E (Equation 16-12)
Overturning Moment: Mat:= P•h
(L2
Resisting Moment: Mr:= 0.6 Wdi + WWaii) 2 + 0.6•Pdi•L
Mot— Mr
Holdown Force R
L
GREEN MOUNThIN PROJECT: Riverside - 2885
Alle structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-10
LATERAL
Left Elevation Exterior Walls
Second Level
Wind Force P:= 2260.lb P= 2260 lb
Length of wall L:= 5•ft+ 4•ft+ 19•ft L= 28ft
F'
Shear v:= - v= 80.71 plf A
5
Overturning Mot:= P•8•ft•28 Mot= 3228.57 Ib•ft
Moment
(5•ft)2
Resisting M�:= 0.6 (15 psf•2•ft+ 10•psf•8•ft)• 2 + 0.6.600 Ib•5.ft
Moment
Mr = 2625lb•ft
Mot— Mr
Holdown = 120.71 lb
Force 5•ft
Main Level
Wind Force P:= 4660 lb P= 4660 lb
Length of wall L:= 14•ft+ 10•ft+ 8•ft L= 32ft
P
Shear v:= - v= 145.63 plf
8
Overturning Mot:= P•9 ft 32 Mot = 10485 lb ft
Moment
(8 ft)2
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•17•ft)• 2 + 0.6.800lb•8ft
Moment
M, = 7680lb•ft
Mot— Mr.
Holdown = 350.63 lb
Force 8•ft•
11
GREEN MOUNTAIN PROJECT: Riverside - 2885
UP structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-1
LATERAL
Front Elevation Exterior Walls
Second Level
Wind Force P:= 2373•lb P= 23731b
Length of wall L:= 3.5•ft+ 3•ft+ 3.5.ft+ 3.5•ft L= 13.5 ft
P
Shear v:= — v= 175.78 plf
3.5
Overturning Mot:= P43•ft•— Mot= 4921.78 lb•ft
Moment 13.5
(3.5•ft)2
Resisting Mr := 0.6'(15'psf•4•ft + 10•psf•8•ft)• 2 + 0.6.600•Ib•3.5oft
Moment
Mr.=17745lb•ft
Mot- Mr
Holdown = 899.22 lb
Force 3'S•ft MSTC4853
Main Level
Wind Force P:= 2688.1b P= 29881b
Length of wall L:= 2.25-ft+ 2.25•ft+ 1.5•ft+ 1.5•ft L= 7.5ft
2.25.3.5= 7.88
P
Shear Wind v:_ — v= 398.4 plf D
2.25
Overturning Mot:= P•7.88•ft•— Mot= 7063.631b ft
Moment 7.5
(2.25•ft)2
Resisting Mr:= 0.6•(15•psf•4-ft+ 10•psf•8•ft)• 2 + 0.6.800•lb•2.25•ft
Moment
M
Holdown of- Mr = 2564.89 lb
Mr.= 1292.63lb.ft
Force 2.25-ft
HITS
II
GREEN MOUNTRIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB No: 17485 SHEET: L-12
LATE RAL
Right Elevation Exterior Walls
Second Level
Wind Force P:= 2260•lb P= 22601b
Length of wall L:= 8•ft+ 5•ft+4•ft L= 17ft
F'
Shear v:= -
L v- 132.94 plf A
4
Overturning Mot:= P•8•ft•17 Mot= 4254.12 lb ft
Moment
(4•ft)2
Resisting Mr:= 0.6•(15•psf•2•ft+ 10 psf•8•ft)• 2 + 0.6.600-Ib•4•ft
Moment
Mr = 1968lb-ft
Mot- Mr
Holdown = 571.531b
Force Oft
Main Level
Wind Force P:= 4660•lb P= 4660 lb
Length of wall L:= 15•ft+ 8•ft+ 3•ft L= 26ft
P
Shear v:= - v= 179.23 plf
8
Overturning Mot:= P•9•ft —26 Mot=12904.62lb•ft
m n
Mo e t
(
8•ft)2
Resisting Mr:= 0.6 (15 psf 2•ft+ 10 psf-17 ft) 2 + 0.6.800 Ib•8 ft
Moment
M1 = 7680lb•ft
M -
Ma Mr
Holdown = 653.08 lb
Force 8-ft
11
GREEN MOUNTVIIN PROJECT: Riverside - 2885
lir structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-13
LATE RAL
Rear Elevation Exterior Walls
Second Level
Wind Force P:= 2373.lb P= 2373 lb
Length of wall L:= 7.5•ft+11•ft+ 4•ft L= 22.5ft
P
Shear v:= - v= 105.47 plf A
7.5
Overturning Mot:= P 8 ft.-22.5Mot = 6328Ib•ft
Moment
(7.5•ft)2
Resisting Mr:= 0.6•(15•psf•2•ft + 10•psf•12•ft)• 2 + 0.6.600•Ib•7.5•ft
Moment
Mr= 5231.25 lb•ft
Mot Mr
Holdown = 146.23 lb
Force 75ft
Main Level
Wind Force P:= 3813.1b P= 38131b
Length of wall L:= 6•ft+ 7.ft+ 4.ft L= 17ft
P
Shear Wind v:= - v= 224.29 p1f 5
4
Overturning Mot:= P•9 ft 17 Mot= 8074.59 lb•ft
Moment
(4•ft)2
Resisting Mr:= 0.6.(15.psf•4•ft+ 10 psf•8•ft) 2 + 0.6.800•lb•4•ft
Moment
Mot- Mr Mr = 2592 lb•f t
Holdown = 1370.65 lb
Force Oft
HTTS
GREEN MOUNThIN PROJECT: Riverside - 2885
structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-14
LATE RAL
Interior Shear Walls at back of Garage
Main Level
Wind Force P:= 4069•lb P= 4069lb
Length of wall L:= 18•ft L = 18ft
P
Shear Wind v:= - v= 226.06pIf 5
Overturning Mot:= P•9•ft Mot= 36621 Ib•ft
Moment
(18•ft)2
Resisting M�:= 0.6•(10•psf•12•ft+ 10•psf•9•ft)• t
2 + 0.6.1200•lb•18•f
Moment
Mot = 33372 I b•ft
Holdown = 180.5lb
M,
Force 18•ft
II
4 ` .
GREEN MOUNTI'IIN PROJECT:
Riverside - 2885
AiliP structural engineering DATE: 12/4/2017 BY: CM
JOB NO: 17485 SHEET: L-15
LATERAL
WIND ON PORCH ROOF
126 MPH,EXP B w:= 6•ft•(4.43•psf + 8.86•psf) w= 79.7 plf
D
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ri
/ II
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ll V II
I MI III
DESIGN ROOF TO CANTILEVER FROM HOUSE L:= 10•ft D:= 11 ft
wL2
M:= 2 M= 3987lbft
support beam on post in wall at house with
M Simpson HUCQ-SDS
C:_ T C C= 398.7 Ib 12 SDS 1/4x21/4 screws(min)x172 lbs=2064
in combined withdraw
w•L Nail top and bottom chord of first truss to wall with
v:= D v= 72.49 plf (2)16d nails at 16"o.c.(web to studs)
IA