Report (37) (2, ? cs&' /33
GP
Engineering,Inc.
Real-World Geotechnical Solutions
Investigation• Design• Construction Support
June 19, 2016
Project No. 14-3586 RECEIVE!)
Niki Munsun
Riverside Homes, LLC OCT 2 Q 2016
17933 NW Evergreen Parkway, Suite 370 CITY OF TIGAD
Beaverton, OR 97006
BUILDING DIVISION
SUBJECT: SUMMARY REPORT OF GEOTECHNICAL OBSERVATION AND TESTING
WALNUT RIDGE
TIGARD, OREGON
Reference: Geotechnical Engineering Report, Walnut Property Subdivision, 13320 SW
Walnut Street, 13320 SW Walnut Street, Tigard, Oregon, November, 6, 2014.
GeoPacific Engineering, Inc. (GeoPacific) conducted on-call testing and construction observation
services for the Walnut Ridge Subdivision. The Site Plan for the project, prepared by Harris
McMonagle Associates, is attached. This project consists of creating 10 lots for single-family
residential structure construction, and associated improvements that included new streets,
underground utilities, and storm facilities.
Results of field monitoring and density testing for the development are attached to this report. In
addition, this letter provides recommendations for residential structure construction.
PREPARATION AND FILL PLACEMENT ON LOTS
Based on our field observations, no engineered fill was placed on lots
t 3
UNDERGROUND UTILITIES AND STREETS
Prior to any street base course placement, areas to receive fill were stripped. Stripped materials
were removed from the site and/or stockpiled for later use as landscaping soil over finished lot
surfaces. See the Field Soil Observation Summary for site stripping reports.
GeoPacific performed periodic testing of the utility trench backfill during placement of
underground utilities. Tested backfill consisted of imported $/"-0 crushed rock. Density test
results indicate the backfill was compacted in accordance with project specifications, to at least
95 percent of Standard Proctor(ASTM D698) at the locations tested, per project requirements.
14835 SW 72nd Avenue
Tel (503)598-8445
Portland, Oregon 97224 Fax (503)941-9281
coring
IVUNTE/� � NC
CONSULTINGIENGINEER
3204 NE 166th Avenue I Vancouver,WA 98682
corinam(dlcomcast.net i 503-313-3011
Lateral Analysis
For
Riverside Homes— Plan 2885 A
12863 SW 133rd Ave OCT 2 0 2016
Tigard, OR 97223
CITYOFTIGARD
BUILDING DIVISION
September 19,2016
ice
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OREGON
C�o9NA�2. �q P2
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Expires: 12.31.1Cp
Job No:15116
' LIMITATIONS ' ' '
ENGINEER WAS RETAINED IN A LIMITED CAPACITY FOR THIS PROJECT.
DESIGN IS BASED UPON INFORMATION PROVIDED BY THE CLIENT, WHO IS SOLELY
RESPONSIBLE FOR ACCURACY OF SAME. NO RESPONSIBILITY AND/OR
LIABILITY IS ASSUMED BY,OR IS TO BE ASSIGNED TO THE ENGINEER
FOR ITEMS BEYOND THAT SHOWN ON THESE SHEETS.
Table of Contents
Design Criteria
Lateral Analysis L-1 — L-15
Lateral Analysis
For
Riverside Homes— Plan 2885
Job No:15116
• " " LIMITATIONS " • "
ENGINEER WAS RETAINED IN A LIMITED CAPACITY FOR THIS PROJECT,
DESIGN IS BASED UPON INFORMATION PROVIDED BY THE CLIENT,WHO IS SOLELY
RESPONSIBLE FOR ACCURACY OF SAME. NO RESPONSIBILITY AND/OR
LIABILITY IS ASSUMED BY,OR IS TO BE ASSIGNED TO THE ENGINEER
FOR ITEMS BEYOND THAT SHOWN ON THESE SHEETS.
Table of Contents
Design Criteria
Lateral Analysis L-1 — L- 15
coring
N/UhTEAN INC.
CONSULTING1ENGINEER
3204 NE 166t Avenue I Vancouver,WA 98682
corinarnacomcast.net 1503-313-3011
STRUCTURAL DESIGN CRITERIA
Governing Code: 2012 International Residential Code (IRC)
2012 International Building Code (IBC)
Dead Load:
A. Roof 15 psf
5. Floor ..10 psf
C. Exterior walls .10 psf
D. Interior walls with gypboard each side 5 psf
Snow Load:
A. Uniformly distributed snow load 25 psf
Floor Live Load: 40 psf
Wind Load:based on ASCE 7-10 CH27 MWFRS Directional Procedure
A. 3 Second Gust Wind Speed V=126 mph
B. Importance Factor ..1=1.0
C. Exposure
D. Topographical Factor .Kzt=1.0
E. Wind Directional Factor .Kd=0.85
F. Structure classified as enclosed
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 sec.period S1=0.34
C. Ductility Factor R=6.5
D. Seismic Design Category D
Foundation Soil Properties:
A. Undisturbed sandy silt per IBC 20012 Table 1806.2....Soil Class#5
B. Maximum vertical bearing pressure 1500 psf
Concrete:
A. 28 days design strength F'c 3000 psi
B. Reinforcing bars ASTM A615, Grade 60
corina
MUNTEANtiN(_
CONSULTING'ENGINEER Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue I Vancouver,WA 98682 Date:Nov 2015 Sheet: L-1
rorinarn®corncast.net(503 313-3011
SEISMIC DESIGN BASED ON ASCE-7-10
1617.5 Simplified analysis procedure for seismic design of buildings
12•SD5
SEISMIC BASE SHEAR V:= R •W (EQ.12.14-11 with F=12)
Ss mapped spectral acceleration for S 1.00
•—
short periods(Sec.11.4.1) from USGS web site
SS mapped spectral acceleration for := 0.34
1 second period(Sec.11.4.1)
Fa Site coefficient(Table 114-1) Fa 1.1 Based on Soil
Ft, Site coefficient(Table 11.4-2) Fv:= 1.8
Site Class D
SMs:= Fa•S5 SM5= 1.1 (Eq.11.4-1)
SKI Fv•SI SM1= 0.61 (Eq.11.4-2)
11.4.43 Design spectrum response acceleration parameters
2
SDS 3'SMs Sps= 0.73 > 0.50g
SEISMIC
2 CATEGORY
SDI 3•SMI SDI= 0.41 > 0.20g D per Table 11.6-1
1.2 SD5 WOOD SHEAR PANELS
V W R:= 6.5 Table 9.52.2
R
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 12.342)
WSD:= 0.7•E 0.7.1.3.0.135•W 0.123•W WOOD SHEAR PANELS
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MUNTEAN��r�:-
CONS U LTI NGI ENGI NEER
Plan 2885
3204 NE 166'"Avenue Vancouver,WA 98682 Job No:1511161 By:CM
corinam�alcomcasLnet(5033'3-3011 Date:Nov 2015 Sheet L-2
SIMPLIFIED WIND AND SEISMIC COMPARISON
WIND
--* '
11 AL
— —� 7.4
psf psf
_) 111111
1111 -44. Wind base
–9 Shear
IIEMIMMINIMMINIMMINEM
Length L:= 52.ft
Height Ht:= 24•ft WIND:= L•Ht.(11.psf+ 7.4•psf)
SEISMIC WIND= 22963.2 lb
\-Fr ..> Wroof
F2 - — Wfloor —
Wwall Seismic
base Shear
Aroof:= 52.ft•40•ft Aroof= 2080ft2
Afloor '43•ft•40•ft oor= 1720ft2
Wwalls:= 4.52•ft•20•ft Wwalis =4160 ft2
SEISMIC:= (Ar •15•psf + Arbor'15•psf + Wwaiis'10•psf)•0.123 SEISMIC= 12127.8 lb
WIND GOVERNS DESIGN
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MUNTEANIN(
Co NSU LTI NG'ENGINE ER
Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue Vancouver,WA 98682
corinarn alcov vst net 1503 3133011 Date:Nov 2015 Sheet L-3
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 B
WIND SPEED(3 second gust) Vas:= 126 mph
IMPORTANCE FACTOR I := 1.0
TOPOGRAPHICAL FACTOR KZt:= 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/h eight)
15'-201 KZ:= 0.62 qz:= .00256•KZ•K2t•Kd•V3s2•I qZ= 21.42
20'-25' KZ:= 0.66 qz:= .00256•KZ•KZt•Kd•V3$2•I qZ= 22.8
25'-30' KZ:= 0.70 qz:= .00256•KZ•Kit•Kd•1/3s2•I qz= 24.18
IIII coring
MUN T EAN
CONSULTINCIENCINEER
Plan 2885
3204 NE 166'"Avenue I Vancouver,WA 98682 Job No:15116 By CM
corinamna Comcast net 1 503-313-303 L-4
Date:Nov 2015 Sheet
WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont.
WIND PRESSURE P:= gZ•G•Cp G:= 0.85 Gust factor
CP pressure coefficient
AT WALLS For Working Stress Design Multiply WIND PRESSURE by 0.6 per IBC 1605.3.1
0'-15' WINDWARD PN,:= 12.4•psf•0.85.0.8 P,w= 8.43psf
LEEWARD PL:= 12.4•psf•0.85.0.5 PL= 5.27 psf
15-20' WINDWARD PW:= 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 PW:= 14.36•psf•0.85.0.8 PW= 9.76 psf
LEEWARD PL:= 14.36•psf•0.85.0.5 PL= 6.1 psf
AT ROOF
0'-15' WINDWARD P,:= 12.4•psf•0.85.0.3 P,= 3.16psf
LEEWARD PL:= 12.4-psf•0.85.0.6 PL= 6.32 psf
15-20' WINDWARD PW:= 13.49•psf•0.85.0.3 P„= 3.44 psf
LEEWARD PL:= 13.49•psf•0.85.0.6 PL= 6.88psf
20'-25' WINDWARD P,:= 14.36•psf•0.85.0.3 PW= 3.66psf
LEEWARD PL:= 14.36•psf•0.85.0.6 PL= 7.32 psf
25'-30' WINDWARD P,,,:= 15.23.psf•0.85.0.3 PN,= 3.88 psf
LEEWARD PL:= 15.23•psf•0.85.0.6 PL= 7.77 psf
,
IIIcoring
MUNTEANttNc
CONSULTING'ENCINEER Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue(Vancouver,WA 98682 Date:Nov 2015 Sheet L-5
coni namacomcaslnet 1 503-313-305
WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont.
;sfAiihllSllo;.88-
Assume
Cp-o.3` := 35
SI4140‘
7Cp--0.6
3
8ft j
9.17
psf 6.1
psf
Mean Roof Height
o fir,,
18+ 22
= 20
2
Loads at Roof roof-ave
Windward 3.44•psf.5.5.ft=18.92 pIf
Leeward 6.88•psf.5.5.ft= 37.84 plf
Wall loads at upper level at main level
Windward 8.43psf•4-ft= 33.72pif 8.43•psf•8.5•ft= 71.66pIf
Leeward 5.73•psf•4•ft= 22.92pIf 5.73•psf•8.5•ft=48.71p if
4
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MUNTEANt N C
CONSULTINCIENGINEER Plan 2885
Job No:'0116 By:CM
3204 NE t66'"Avenue 1 Vancouver,WA 98682
Date:Nov 2015 Sheet L-9
corinam(alcomcastnet 1503-313-3011
SHEAR WALL DESIGN
Pdl P'dl
Wdl 4,
7 1 __ P (V) P wind
V:= seismic
h
4
12=Holdown
F
orce
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: Ma:= P•h
Resisting Moment: Mr•= .06•(Wdl + Wwall) (L)2
'2 + 0.6•Pdl•L
Mot— Mr
Holdown Force R
L
i
III coring
MUNTEANt,Nc
CONSULTINGJENGINEE0 Plan 2885
Job No:15116 Sy:
CM
3204 NE 66.orma Avenue I Vancouver,WA 98682 Date:Nov 2015 Sheet L-10
cnrinam(alcomcasLnet I 503-313-3011
Left Elevation Exterior Walls
Second Leve/
Wind Force P:= 2260.1b P= 2260 lb
Length of wall L:= 5•ft+ 4•ft+ 19•ft L= 28ft
P
Shear v:= L v= 80.71 plf A
5
Overturning Ma:= P•8•ft•28 Ma= 3228.57 lb•ft
Moment
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•8•ft)•(52) 2 + 0.6.600•Ib•5•ft
Moment
Mr= 2625lb•ft
Ma— Mr
Holdown = 120.71 lb
Force 5.ft
Main Level
Wind Force P:= 4660 lb P=466016
Length of wall L:= 14•ft+ 10•ft+ 8•ft L= 32ft
P
Shear v:= L v= 145.63p1f 6
8
Overturning Mot:= P•9•ft•32 Mot=10485lb•ft
Moment
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•17•ft)•(8-ft
82)2 + 0.6.800•ib•8•ft
Moment
Mr= 7680lb•ft
Ma— Mr
Holdown = 350.63 lb
8•ft
Force
r
III coring
MUNTEAWN(=
CONSULTINGIENCINEER Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue I Vancouver,WA 98682 Date:Nov 2015 Sheet L-1 1
corinarr4c.orncast net 1 503313-3011
Front Elevation Exterior Walls
Second Level
Wind Force P:= 2373-lb P= 2373lb
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 B
L
3.5
Overturning Mat:= P•8•ft•— Mot= 4921.78lb•ft
Moment 13.5
(3.5•ft)2
Resisting Mr:= 0.6•(15•psf•4-ft+ 10•psf•8•ft)• 2 + 0.6.600•1b•3.5•ft
Moment
Mr= 1774.5lb•ft
Mot— Mr
Holdown = 899.22 lb
Force 3.5 ft MSTC48B3
Main Level
Wind Force P:= 2988•Ib P= 2988 lb
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 0
L
2.25
Overturning Mot:= P•7.88•ft• 7.5 Mot= 7063.63lb•ft
Moment
(2.25.ft)2
Resisting Mr:= 0.6•(15•psf•4•ft+ 10•psf•8•ft)• 2 + 0.6.800•Ib•2.25•ft
Moment
Mot— Mr Mr= 1292.63lb•ft
Holdown = 2564.89 lb
Force 2.25•ft
HITS
Y. 1
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MUNTEANair,c
Co NEULTI NC ENGINEER Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue I Vancouver,WA 98682 Date:Nov 2015 Sheet: L-12
codnam®corocast net 503-313-3011
Right Elevation Exterior Wails
Second Level
Wind Force P:= 2260.1b P= 2260 lb
Length of wall L:= 8•ft+ 5•ft+4•ft L= 17ft
P
Shear v:= — v= 132.94 plf A
4
Overturning Mot:= P•8•ft•17 Mot= 4254.121b-ft
Moment
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•8•ft)•(42.ft)2 + 0.6.600•Ib4.ft
Moment
Mr= 1968lb•ft
Mat— Mr
Holdown = 571.53 lb
Force Oft
Main Level
Wind Force P:= 4660.lb P= 46601b
Length of wall L:= 15•ft+ 8•ft+ 3•ft L= 26ft
P
Shear v:= — v=179.23 plf B
8
Overturning Mot:= P•9•ft•26 Mot=12904.62lb.ft
Moment
(8•ft)2
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•17•ft)• 2 + 0.6.800.Ib.8•ft
Moment
Mr= 7680lb•ft
Mot— Mr
Holdown = 653.08 lb
8-ft
Force
corina
MUNTEAN-',N(
CONSULTINCIENGINEER
Plan 2885
Job No:15116 By:CM
3204 NE 166'"Avenue 1 Vancouver,WA 98682 Date:Nov 2015 Sheet L-13
corinvr acomcast net S03-313-3011
Rear Elevation Exterior Walls
Second Leve/
Wind Force P:= 2373•Ib P= 237316
Length of wall L:= 7.5•ft+ 11•ft+4•ft L= 22.5ft
P
Shear v:= L v= 105.47 pif A
7.5
Overturning Mot:= P•8•ft•— M = 632816•ft
Moment 22.5
Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•12•ft)•(7 2
2ft) + 0.6.600•Ib•7.5•ft
Moment
Mr= 5231.2516•f t
Mo- Mr
Holdown = 146.2316
Force 7.5ft
Ma/n Level
Wind Force P:= 3813•lb P= 381316
Length of wall L:= 6-ft+ 7•ft+ 4-ft L= 17 ft
P
Shear Wind v:= L v= 224.29plf B
4
Overturning Mat:= P•9•ft•17 Mot= 8074.591b•ft
Moment
Resisting Mr:= 0.6•(15•psf•4•ft+ 10•psf•8•ft)•(422
) + 0.6.800•lb•4•ft
Moment
Holdown Mot- Mr = 1370.6516 Mr = 2592 lb•ft
Force 4.ft
HITS
coring
MUNI roc
CONSULTI N C CENGI N EER
Plan 2885
3204 NE 166'"Avenue Vancouver,WA 98682 Job NO:15116 By:CM
cortnam(4)comcast.net 1 503-313 303 Date:Nov 2015 Sheet L-14
Interior Shear Walls at back of Garage
Main Level
Wind Force P:= 4069•lb P=4069 lb
Length of wall L:= 18-ft L= 18ft
P
Shear Wind v:= — v= 226.06 plf B
L
Overturning Ma:= P-9-ft Mot= 36621 Ib•ft
Moment
Resisting Mr:= 0.6•(10•psf•12•ft+ 10•psf•9•ft)•(18-ft
182)2 + 0.6.1200•lb•18•ft
Moment
Mot— Mr Mr= 33372Ib•ft
Holdown = 1805 lb
Force
18-ft
A ...
III corina
MUNTEANtiNE
CONSULTINGIENCINEER Plan 2885
Job No:15116 By:CM
3204 NE 166'rAvenue I Vancouver,WA 98682 Date:Nov 2015 Sheet L-1 5
corinarn(alcomcastnet 1 503.3133011
WIND ON PORCH ROOF
126 MPH,EXP B w:= 6•ft•(4.43•psf + 8.86•psf) w = 79.7 plf
/ D /
/
\ 11 II
/ I 1 II
II
/ II
w II
M II L
di; II
� 11 II
DESIGN ROOF TO CANTILEVER FROM HOUSE L:= 10•ft D:= 11.ft
w•L2
M:= 2 M= 3987Ibft
support beam on post in wall at house with
M Simpson HUCQ-SDS
C:= — T:= C C= 398.7Ib
L 12 SDS 1/4x21/4 screws(min)x172 lbs=2064
in combined withdraw
w•L Nail top and bottom chord of first truss to wail with
v:_ v= 72.49 plf (2)16d nails at 1611 o.c.(web to studs)