Specifications MS-T R CES° Fn�
\\\-kS S 1\O. VA- • JUL S 2019
CITY 07-i"I�'.:< rip
BUILDING DiV ft)N
D YI Structural'Civil Engineers
ii.rrt
OFFICE COPY
STRUCTURAL CALCULATIONS
FOR
ADDITION TO
11175 SW 119th AVE
TIGARD, OREGON
JUNE 28, 2019
t1e_.T'q_
43 /
k" 411
t
i Ni ws: : a-2o20 I
WDY Project#19125
DESIGN PARAMETERS: 2017 Oregon Residential Specialty Code(ORSC)
LOADING
WIND ZONE 120 mph Figure R301.2(4)
SEISMIC DESIGN CATEGORY D1 Figure R301.2(2)
ROOF SNOW LOAD 25 psf
CONTENTS:
ROOF FRAMING R-1 to R-9
FLOOR FRAMING F-1
PATIO COVER PC-1 to PC-2
PRESCRIPTIVE WALL BRACING L-1 to L-4
6443 SW Beaverton-Hillsdale Hwy,suite 210•Portland,OR 97221 •ph:503 203 8111 •www.wdyi.com
W D Y Structural • Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-1
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Design Criteria&Scope
Loading
Design per 2017 edition of the Oregon Residential Specialty Code(ORSC)
1) Roof Live Load: 25 psf ground snow plus drifting per ASCE 7-10 Chapter 7
2) Floor Live Load: 40 psf Residential
3) Lateral: a) Wind - IBC 120 mph zone(3s), Exposure B Figure R301.2(4)
b) Seismic Design Category D1 Figure R301.2(2)
4) Soils: 1,500 psf per Table R401.4.1 Presumptive Values
Materials
1) Concrete: fc=2,500 psi at 28 days(foundations and walls)
2) Reinforcing: ASTM A615 Grade 60-straight bars
ASTM A615 Grade 40-stirrups &ties
4) Lumber: No. 2 DF/L, S. Dry for framing
No. 1 DF/L, S. Gm for posts& timbers
5) Engineered Wood: Fb =2,400 psi, 24F-V4, DF simple span Glu-lam beams
6) Plywood: Roofs: 19/32" CD plugged, 40/20, Group 1, APA, Ext glue, spans <=24"
Floors: 23/32"sturd-i-floor, 24" oc, Group 1, APA, Ext glue
Walls: 15/32" CD, 32/16, APA, Ext glue
Scope
Design is for 233 sq foot addition to an existing single family, conventionally framed wood structure
with modifications to one (1) existing exterior wall. Remodels also include a small exterior patio cover.
flW D Y Structural Civil Engineers
Sanaa
Job Name: Weaver Addition Job No: 19125 Sheet No: R-2
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Layout
1II - (N)PATIO COVER;
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`i W D Y Structural.-Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-3
Client: MFA Architecure& Planning Date: June 2019 By: GGM
Sheathing
Design DL = 15.0 psf
Design LL = 25.0 psf
Max Drift = 0.0 psf not required
Addition roof
Roof spans = 16.0 in
Superimposed DL+ SL = 10.5 psf + 25.0 psf
Allowable Load = 305.0 psf > 35.5 psf
19/32"CDX Plywood
Addition floor
Floor spans = 16.0 in
Superimposed DL+ SL = 12.5 psf + 40.0 psf
Allowable Load = 240.0 psf > 52.5 psf
19/32"CDX Plywood
RECOMMENDED UNIFORM ROOF LIVE LOADS FOR APA RATED SHEATHING ta/AND APA RATED STURD-I-FLOOR
WITH LONG DIMENSION PERPEDNDICULAR TO SUPPORTS(b)-U360 performance min
Maximum Span (in.) Allowable Live Loads (psf)(c)
Panel Min. Panel Spacing of Supports Center to Center(in.)
Span Thickness With Edge Without Edge
Rating (in.) Support t"f Support 12 16 19.2 24 32 40 48 60
APA Rated Sheathing (a)
12/0 5/16 12 12 30
16/0 5/16 16 16 70 30
20/0 5/16 20 20 120 50 30
24/0 3/8 24 20(e) 190 100 60 30
24/16 7/16 24 24 190 100 65 40
32/16 15/32, 1/2 32 28 308 173 112 54 22
> 40/20 19/32, 5/8 40 32 467 293 203 108 43 27
48/24 23/32, 3/4 48 36 -- -- 280 175 95 45 35
60/32t9 7/8 60 48 -- -- -- 305 165 100 70 35
APA Rated Sturd-I-Floor(g)
16 oc 19/32, 5/8 24 24 185 100 65 40
20 oc 19/32, 5/8 32 32 270 150 100 60 30
> 24 oc 23/32, 3/4 48 36 571 330 229 143 57 36 24
32 oc 7/8 48 40 -- -- 295 185 100 60 40
48 oc 1-3/32, 1-1/8 60 48 -- -- -- 290 160 100 65 40
(a)Includes APA RATED SHEATHING/CEILING DECK. (e)24 inches for 15/32-inch and 1/2-inch panels.
(b)Applies to panels 24 inches or wider applied over two or more spans. (f)Check with supplier for availability.
(c)10 psf dead load assumed. (g)Also applies to C-C Plugged grade plywood.
(d)Tongue-and-groove edges,panel edge clips(one midway between each
support,except two equally spaced between supports 48 inches on center or
greater),lumber blocking,or other. For low slope roofs,see Table 4.
Will
temeli W D Y Structural.<Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-4
Client: MFA Architecture& Planning Date: June 2019 By: GGM
NDS Bending Design Values
D.Fir/Larch Select Struct Base Value= 1500
Size Allow Snow+
Size Factor Stress Repetitive Repetitive
2x4 1.5 2250 2588 2976
2x6 1.3 1950 2243 2579
2x8 1.2 1800 2070 2381
2x10 1.1 1650 1898 2182
2x12 1.0 1500 1725 1984
2x14 0.9 1350 1553 1785
D.Fir/Larch #1 and Better Base Value = 1200
Size Allow Snow+
Size Factor Stress Repetitive Repetitive
2x4 1.5 1800 2070 2381
2x6 1.3 1560 1794 2063
2x8 1.2 1440 1656 1904
2x10 1.1 1320 1518 1746
2x12 1.0 1200 1380 1587
2x14 0.9 1080 1242 1428
D.Fir/Larch No. 1 Base Value= 1000
Size Allow Snow+
Size Factor Stress Repetitive Repetitive
2x4 1.5 1500 1725 1984
2x6 1.3 1300 1495 1719
2x8 1.2 1200 1380 1587
2x10 1.1 1100 1265 1455
2x12 1.0 1000 1150 1323
2x14 0.9 900 1035 1190
D.Fir/Larch No. 2 Base Value = 900
Size Allow Snow+
Size Factor Stress Repetitive Repetitive
2x4 1.5 1350 1553 1785
2x6 1.3 1170 1346 1547
2x8 1.2 1080 1242 1428
2x10 1.1 990 1139 1309
2x12 1.0 900 1035 1190
2x14 0.9 810 932 1071
`WDY Structural . Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-5
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Typical Rafter RJ-01
COMPANY PROJECT
100141WDY Structural&ChM Engineers Weaver Addition
I WoodWorks° Portland,Oregon Tigard,OR
54)INWILMWMMAI#545.6W June 27,2019 16:51 weaver-RJ01.wwb
Design Check Calculation Sheet
WoodWorks Sizer 10.4
Loads:
Load Typo Di.ltribtltion Pat- LriGattnn [ftj Magnitude, Unit
t.,.2rn Start End Start End
DL Dead Full Area Na 15,0011.6.0" 'pat'
-SL Snow Full Are4 NP 25.00(16.0"i pf
Solt-weight D,:!ad Full UDL No 4.0 pie
Load magnitude does not include Normal Importance factor from Table 4.2.3.2, which
to applied during nelyete.
Maximum Reactions(ibs), Bearing Capacities (ibs)and Bearing Lengths (In) :
13.-2,8"------------- — --i
------------- -----
-- ------
0' 2' 1:1'4"
Unfactnted:
Dead 1e4 122
Snow 228 153
Faotorod: - .
Total 411 275
Bearing: .
F'thotn 710 710
Capacity
Joiot 1996 1863
Supptt 1799 -
Anal/Deo
..loi_st 0 21 0.15
Suppurt 0.23 _
Load comb #2 42
Length 1.50' 1.75
Min teg'd 1.SO. 1.5D*
Cb 1 25 1,00
Oh min 1 .25 1.00
CD support 1.25
Fopsup 625 -
'Minimum bearing length salting used:1-1/2"for end supports and 1-1afor interior supports
Maximum reaction on at least one support Is from a different load combination than the critical one for bearing design.
shown here,due to Kd factor,See Analysis results for reaction from critical load combination.
Addition rafter
Lumber-soft, D.Fir-L, No.2,2x12(1-1/2"x11-1/4")
Supports:1-Lumber n-ply Beam,D_Fir-L No.2;2-Hanger;
Roof joist spaced at 16.0'c/c;Total length; la'-2,8";volume=1.6 omit.;Pitch:6/12;
Lateral support:top=full,bottom=at supports;Repetitive factor:applied where permitted(refer to online help);
Analysis vs.Allowable Stress and Deflection using NOS 2012 r
CriteriOn Analysis Value Design Value Unit Analysis/Deaicin
' Shear Iv -= 19 E-Ny' = 207 pal 17v/I,Y1 -. 0,09
1'onding(4! fh = 226 Ph' = 1190 psi fhiFb' = 0.19
fiending(-) Co - 46 Fb' - 617 psi lh/Fb' - 0.0
Deflection:
rntnrinr LiVr., 0.02 ' <L/999 0.52 -, 1./240 in 0.04
Total 0.05 - .;.L.799J 0.70 - L/180 in 0.0'J
Cantil. Live -0.01 ,=. <5/999 0.22 = L/120 in 0,10
11 -0.08 , 5/901 0.30 , L/90 It, 0.16
173WDY Structural. Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-6
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Ridge at Addition RB-01
COMPANY PROJECT
1 if it MY Structural&Mit Enginoors Weave(Addition
1 I i WoodWorks Portland,Oregon Tigard,OR
,
I .P31T-NWP141W)fr'il.P43,4V4 June 27,2019 16:57 weaver-RBOla,wwb
Design Check Calculation Sheet
WorxiWorts Sizer 10.4
Loads:
Load Typo Dintrih,stion P - Location [ft) Magnitude Onit
Ldrn Start End Start End
DL Dead Full UDL No 140.0 pit
SL Snow Full ODL No 233.0 pIt
Self-woight IJ,..ad Full UDL No 8.2 pit
Load magnitude does not include Normal importance factor from Table 4,2,3.2, which
Is appliod durlbq analyais.
Maximum Reactions(lbs), Bearing Capacities(lbs)and Bearing Lengths (In) :
t 1W-6.7-
f
11
12-6"
Unractored:
Dead 163 1514
Snow 1361 2537
Factored.: -1
Total 2224 4151
Ettring:
capacity
Boom 6125 4151
Suppott 11340 4637
Anaiicco
lin:am {1.35 1-11(1
Support 3.20 0_86
Load comb t2 ;2
Lbngth 3.50 2_00
Min read 1.504 2.00
1.00 1.19
Oh tOln 1.60 1_19
CO support 1.00 1.11
Lo/Fop sup 700 625
Maximum reaction an at least one support is from a different load combination then the critical one for hearing design,
shown here,due to Kd factor.See Analysis results for reaction from critical load combination.
. . ..
Addn ridge beam
Glulem-Bal.,West Species,24F-1.7E WS, 34/2"xl 2"
8 laminations,3-1 ir maximum width,
Supports: 1 -Timber-salt Column,13.51r-L Ne_2;2-Lumber n-ply Beam,D.Fir-L No.2;
Total length:16'.8.7";volume 7-• 4.9 cut;
Lateral support:top=full,bottom=at supports:
Analysis vs.Allowable Stress and Deflection using mos 2012
Criterle,ft Analysis Value Dis 11,,Alue , Unit Analybl. /0eg
sin
Shear f', = 79 Fvl = 241 psi fv/Fv` = 0.33
Bonding(1/ fh = 857 Ph' . 2700 pot fh/F17' = n.11
landing(-1 fb - 436 Wh' - 2436 psi rb/u1, - 0.18
Deflection
Tanrior Livo 0.11 - <L/999 0.42 -, L/360 in 0.27
Total 0.22 - L/680 0.62. - L/240 in 0.36
Cantil. Live -0,08 --‘= L/637 a,27 = L/180 in 0,20
Total -0.1.5 -, L/326 0. 10 n L/120 i ti 0.37
In
W D Y Structural. Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-7
Client: MFA Architecture&Planning Date: June 2019 By: GGM
New header loading
IU(L)sIUKM � I Ley 26" N/1 1- I IU( ) I
1—, ti i. fq i I
a o LINEN N, RIDGE POST
.r 9" (1- 2 4j4i1R BATH 1 10 0
a.
9L
(N)BATH
A3„42)
16'0 , (N)BEDROOM W2
J CC
FIN J..J N (..÷I
03 C3 CO
., ='st
-1r,si 111
36" `
,t_ii , „
,�� .zII!"' nm ` `c+ - i1i� 5! '� vJi - -� � H ABOVE; it
t TO REMAIN; 4 Ei.
° S aSEE SECTIONLa
CLERANCESDO °°° NB (4 0 i
"� ,,
CHEN �� €
IIIFEiz,
` 135 k.. ®
6
A 4 - i
(E)B,411-1-1 SC ! CLO , 'i•tx' :
1
11...
..,3I i
E.
\ I1
--1r (E)
/� (E)HALL 6 iiill
Field verify existing framing conditions -note discrepancies to project designer
ty
W D Y Structural. Civil Engineers
him/
Job Name: Weaver Addition Job No: 19125 Sheet No: R-8
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Header at new opening RB-02
COMPANY PROJECT
I %ofiod `� �o r k5t> MY Structural&Civil Engineers Weaver Addition
M�f 1 J Portland,Oregon Tigard,OR
6nrrx.cm,me Pr.000.n,Lm June 27,2019 17.56 weaver-RBO2Avuob
Design Check Calculation Sheet
WoodWorks Sizer 10.4
Loads:
Load Typo D.intr,ib.�tian Par.- 1.ora.r.acn [ft) Kagn Loom pnit
Loin Stent End Start End
RD!, Dead Point 1.98 1514 lbs
RS€, .glow Point Lae 2537 lbs
DBL-01. Dead Point 5.21 545 lbs
DBL-SL Snow Point 5.21 1325 lbs
T1-111 Dodd Pbiht 1.21 510 1bz
TI-SL Snow Point 1.21 650 lbs
T2-01, Dad Point 3.21 510 lbs
T2-SL Snow Point 3.21 850 lbs
UDL Dead Triangular 5.21 10.54 45.0 0.0 p1t
USE, Snow Tri..anqulao 5.21 10.54 54 75.0 0.0 plf
Selr-Height Dead Pull UDL B.2 plc
Load magnitude dos not include Normal Importance factor. from Table 4 2.3,2, which
in applied dt:.rinc .znoi'si.;.
Maximum Reactions(lbs),Bearing Capacities(lbs)and Bearing Lengths (in) :
10-10.3"
0' i '
untactoredi '..
Dead 2541 644
Snow 1250 1512
Factored
Tonal, 6791 2 355
BuaeLng:
capacity
Po= 7575 7575
Support 10596 10898
knaLlhes
Noon (1.56 0.30
Support " 62 0.22
€.nod comb 42 42
Length 1.50 1,50
Min reo_'d 3.66 1 ,50,
rh 1.00 1.00 .
Cla 01111 1.00 1.00
Cb support 1 .11 1 ,11.
Fop ,up 625 625
`Minimum bearing length setting used:1-112"for end supports
Header(E)wall
Glulam-Bal.,West Species,24F-1.7E WS,3-112"x12"
S laminations,3-1/2'maximum width,
Supports;All-Lumber n-ply Beam,D.Fir-L No,2
Total length;10'-10.3";volume= 3.2 cu.ft:
Lateral support;top-at supporta,bottom=at supports:
Analysis vs.Allowable Stress and Deflection using NOS 2012:
CYitetion Anai iia :value Dei,n '/Alum Hitt_' An'1'jsia/Deolyn
Shear fv 235 NV' = 241 ',al fv0 Fv` = 0.?7
Pondtngf{i fb = 1728 Ft). = 2475 psi fh/Fh' = 0.70
Live Defl'rf 0.17 - L/7.44 0.34 - L/360 in 0.48
`total Detl'n 0,31 _, Ll:ua 0 5;'� -- V240 in _.,. 0,59....
*Tho offrco of point InAln within .x die,tsri`o d of thn nupport
has been included am per NDS 3.9.3.1
I`s1 W D Y Structural. Civil En.ineers
Job Name: Weaver Addition Job No: 19125 Sheet No: R-9
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Beam Location : typ window head Beam No. : HD-1
w(DL) = 160.0 plf Span = 5.0 ft
w(LL) = 233.0 plf LDF= 1.15
wo = 6.2 plf w(TL) = 399 plf
Wind (WL) = 26.0 psf Trib ht= 2.0 ft
Selected beam size : 4x8
Selected grade : DFL#2
A= 25.38 in2 Fb= 900 psi
S,= 30.66 in3 F„= 180 psi
Ix= 111.15 in4 E= 1,600 ksi
Sy= 14.80 in3 F,= 1,350 psi
ly= 25.90 in"
Rv= wvL/2 = 998 lbs
RH = WHL/2= 130 lbs
vv= 3/2Rv/Av= 59.0 psi OK
VH= 3/2 RH/AH= 7.7 psi
Combined = 0.37
My= IAN L2/8 = 1247 ft-lbs
MH= wH L2/8= 163 ft-lbs
fbv= 12 Mv/Sv= 488 psi OK
fbH= 12 MH/SH= 132 psi
Combined = 0.56
5 • w • 14
ATL - 384 • E Ix 0.03 in = L/ 1901
5 • w • /4
AWL = 384 E Iy 0.02 in = L/ 3401
Use 4x8 - DFL#2
WD Y Structural Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: F-1
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Typ floor joists FJ-01
COMPANY PROJECT
WDY Structural&Civil Engineers Weaver Addition
00 \o rks Portland,Oregon Tigard,OR
sa,nrmei.an rmantiern3.w June 28,201910:01 weaver-FJ01.wwb
Design Check Calculation Sheet
Woodworks Sizer 10.4
Loads:
Load Type Distribution Pat- Location !ft] Magnitude Unit
tern Start End Start End
DL Dead Full Area 17.00 (16.0") psf
LL Live Full Area 40.00 (16.0") psf
Self-weight Dead Full UDL 4.0 olf
Maximum Reactions (lbs), Bearing Capacities (lbs) and Bearing Lengths (in) :
12'-2"
0' 12'
Unractored:
Dead 162 162
Live 321 324
Factored:
Total 486 486
Bearing:
Capacity
Joint 1641 1641
Anal/Des
Joist 0.30 0.30
Load comb 02 f2
Length 1.75 1.75
Min red'd 1.50"
Cb 1.00 1.00
Cb min 1.00 1.00
"Minimum bearing length setting used: 1-i12"for end supports
Typ floor joist
Lumber-soft, D.Fir-i.,, No.2,2x12(1-112"x11-114")
Supports;All-Hanger
Floor Joist spaced at 16.0"dc;Total length: 12'-2.0";volume 1.4 cu.ft.;
Lateral support;lop=full,bottom=at supports;Repetitive factor:applied where permitted(refer to online help);
Analysis vs. Allowable Stress and Deflection using NDS 2012
Criterion Analysis Value Design Value Unit Analysis/Design
Shear fv 36 Fv' 180 psi fv/Fv' = D.20
Bending(t) fb = 546 Fb' _ 1035 psi fb/Fb' = 0.53
Live Defl'n 0.09 = <L/999 0.40 = L/360 in 0.22
Total Defl'n 0.15 = L/941 0.60 = 1/240 in 0.25
`Its W D Y Structural .Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: PC-1
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Patio cover rafters PC-01
COMPANY PROJECT
W[`►od W o r ks' WDY Structural&Civil Engineers Weaver Addition
Portland,Oregon Tigard,OR
c<irr"•.uf MOO*nrue..v June 28,2019 10:14 weaver-PC01.wwb
Design Check Calculation Sheet
WoodWorks Sizer 10.4
Loads:
Load Type Distribution Fat.. Location [ft] ;`Magnitude Unit
torn Start Iinri Start End '..
DL Dead Full Area No 10.00(24.0"I psf
SL Snow Full Area Yes 25.00('24.0"1 psf
Self-weight Dead Full VOL Pio 2.6 plf
Load magnit.udo does not =lncludo Normal Importance factor from Table 4.2.3.2, which
is applied during analysis.
Maximum Reactions(lbs), Bearing Capacities(lbs)and Bearing Lengths (in) :
T-1.4"
r-_
0' 1'-4"
Unf.aetorod:
Dead 96 57
Snow 190 110
Factored:
Total. 2.35 17'i
Bearing:
: 'theta 713 713
Capacity
Joist 3074 7,573
Support 2930 2930
Anal/Dee
:Jo1at 0.09 0.07
Support 0.10 0.00
Load comb 42 44
Length 2.50 2.50
Min reg'd 1.50* 1.50'
Cb 1.15 1.00
Cb min 1.25 1.00
ch support 1.25 1.25
Pep sup 625 57.5
'Minimum bearing length setting used:1-112"for end supports
Maximum reaction on at least one support Is from a different load combination than the critical one for bearing design,
shown here,due to Kd factor.Sae Analysis results for reaction from critical load combination.
patio rafter
Lumber-soft,D.Fir-L,No.2,2x8(1-112"x7-114")
Supports:All-Lumber n-ply Beam,D.Fir-L No.2
Roof Joist spaced at 24.0"c/c;Total length:7'-1.4";volume=0.5 cu.fi.;Pitch:6/12;
Lateral support:top=full,bottom=at supports;Repetitive factor:applied where permitted(refer to online help);
Analysis vs.Allowable Stress and Deflection using MDs 2012:
Criterion Analysis Value Design Value Unit Analysis/Design
Shear fv - 17 Ev' = 207 psi fv/Fv' n- 0.08
Bending-Mil lb - 164 Fb' - 1428 pal.. rb/Fb' - 0.11
Bonding(-} Ih = 61 Fb' = 1.298 pni. rh/Fb' = 0.05
Deflection:
interior Live 0.01 •-- <L/095 0.26 -- i./240 In 0.03
Total 0.01 , ‹L/099 0.34 i/180 in 0.04
Cantil. Live -0.01 = <Lf999 0.15 = L/120 in 0.04
Total -0,01 = =_L/999 0.20 = L/90 in 0.75
, •
ty
W D Y Structural.Civil Engineers
`ma
Job Name: Weaver Addition Job No: 19125 Sheet No: PC-2
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Patio cover ridge PC-02
COMPANY PROJECT
fitj WDY Structural&Civil Engineers Weaver Addition
ea ( Portland,Oregon Tigard,OR
FlWtlt'AV1 nom 9.131.11 LIMON June 28,2019 10:21 weaver-PCO2.wwb
Design Check Calculation Sheet
Woodworks Sizer 10.4
Loads:
Load Type Distribution Pat- Location [ft] Magnitude Unit
tern Start End Start End
DL Dead Full UDI, No 46.2 pit
SL Snow Full UDI, Yes 115.0 pl.f
Self-weight Dead Full UDL No 7,7 011
Load magnitude does not include Normal Importance factor from Table 4.2,3.2, which
is applied during analysis.
Maximum Reactions (lbs), Bearing Capacities (lbs)and Bearing Lengths (in) :
I _ 10• 1'
0' 12 Ig,) 10
UnfacLored.
Dead 2 6 9 269
Snow 599 599
Factored:
Total 869 '369
Beating:
Capacity
Beam 8476 8476
support 21871 2187L
Anal/Den
Beam 0. 1.0 0. 10
Support 0.04 0.04
Load comb 15 48
Length 3.50 3.50
Min req'd 1.50" 1.50'
Cb 1.11 1.11
Cb min 1.25 1 2
Cb support 1.00 1.00
Pc sup 1350 1350
'Minimum bearing length setting used: 1-1/2"for Interior supports
Maximum reaction on at least one support Is from a different load combination than the critical one for bearing design,
shown here,due to Kd factor.See Analysis results for reaction from critical load combination.
Patio ridge
Lumber-soft, D.Fir-L,No.2,4x10 (3-132"x9-114")
Supports:All-Lumber n-ply Column,D.FIr-L No.2
Total length:10';volume=2.2 cu.ft.;
Lateral support top=at supports,bottom=at supports;
riiW ® Y Structural . Civil Engineers
`v
Job Name: Weaver Addition Job No: 19125 Sheet No: L-1
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Lateral
0 a
BRACED PANEL,TYP I SIMPSON HDU2,
SEE SCHEDULE 4'-2" EQ EQ t TYP OF#
(N)DOWNSPOUT BP-WSP O
O W2 W1 BP-WSP (N)DOWNSPOUT
TO(E)STORM 18" TO(E)STORM
2._e.
0
1 •.
LINEN RIDGE POST;
o _.J
0 n SEE SECTION
1 -9"1, T FURR
2x4 I BATH 1 0 c)
aa o7filit) m CIw
(N)BATH
G -
0 W -18" (N)BEDROOM W3
J cn �. Ckf
FIN \0-1
g.
RA . TYP
2x41 a
ALIGNi
`— HEAGI
DER ABOVE; w0
�� �� 0 EXIST SEE SECTION
2x41 0
(E)KITCHEN 41, TYP
i X35 2x4
N$6-
(---- lJ `\ I ., , I Ill t , \
r1WDY Structural.;Civil Engineers
Simla
Job Name: Weaver Addition Job No: 19125 Sheet No: L-2
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Lateral
City o,f Tiga* casaitJNTT'DEVELOPMENT DEPARTMENT
71
O Prescriptive.ve Bracing Worksheet
T 1 G.'4,11 D 13125 SW Hall I31vd, •Til af;rd; Oregon 97223+503.71
� 8: 2439•wwrw tig utd-orgov
See 11B3drntlal WallEtrating Guide for step-by-tap instructions en how to use this vtuhtbots, 1
WIND ADJUSTMENT FACTORS
Tnble Rtf02:.10.1.2(t)asuernes wind expxnrre category 134 30 ft clean roof height,19 it ea,Vo io W rt "�ilea r_5r il, f. ta`
rices heagju,:1 p it wall height,end 2 homed well linea abasing lout in a given plan tlirsetion no n .t I--
given
given story1erd, For nayother cnatd-iawn.pplytheeppropnoteadjnrrnentfactors StoryS St 'tj-. ,4 '` rY
Story s t3�[:r5�" '
EXPOSURE
BACTO adjustmdee end on t
sea tory height:
` it , 'i( ui to pears C only derb exposed topen te $lnth laaexj -�
Exposure It =1 story.-1.0. 2story-1.0 -3 story-.I.0 verzmitrazyanmli
F-xnasure 4 -t spry^12 2;dory-1.3 .3 story-IA "'.t- �ro tom" �� `l
'etre g t20 1
EAVIE PRIG/IT It.4. 7'OR ietest.snppottecndelien k#height to determine adjustment 1 e.n ': /,0 J It -,�
-
Support Condition Roof Rnva To Ridge Height 5n ';101;t <15a 20it1 Story or Top Sto of 2 or 3 Slo 0.? l,0 1,a 1,6 >:It...iirreu,,,::::,, ,Irrit-1;r43-.,.?).-
4,,?
i f2 Staty.aStacy art Star/of3 Story 0,55 1.0 L35 1.3
1't Story of 3 Shiny I 0.9 1.0 I.1 NP
WALL FF,IGHT FACTOR-actert adjustment fact r basad on ceiling hefghin
- II ri Ceiling 0-90 -91:t Ceiling- D.995 -t*Ft Ceiling 1.0 10.9 a
"-
-11 Pt Ceiling- 1.05 -12FtCeiling- 1.10
NO.OP BRACED WALL.I,INTL8 FACTOR
-select adjustment factor boned on number of brad wall line% a,
-2 WLinea: 1.0 -3 Wall Lines: 1,30 - 4 Wall Linear 1.45 -S Wall Uses: L60 " - ,
=ate „.
Tt'YTAL GENERAL WIND ADJUSTMENT FACTORS le - t,,
Multiply 19 of the above adjusimern feetors for each stagy: ,il 1 l .-.--)i}y ,,_,-
S 4_ ._ __ 1? -~
+ __ -4 u R e a -Spec is la certain types of bracing methods or building crr►ir itWnvis
GYPSUM WALL BOARD PAC10112-Apply 1.4 nditgtmem linter Kali dm following evading' ns occur:
-Bracing nwitod is eitherDWB,WSP,FMB,PBS,PCP or HP'S And
-Gypsum baard is not applied to inside Farce of brewed wall panels. @ Braced Wall Lines ,
,
. f
i Story
GYPSUM WALL 13OAR1.LBRAC[NGMETHOD-Apply 0.T adjustment factor ifOilofthe following conditions nremeu.
-Bracing method is.0 D and
-Ciypauan bored Is attached with 4 spacing at panel edges,Including top and bottom plates and
lit„LlJpm is Provided at all hodmtual joints_ r(@ Deuced Wall Line
@ Story _
ONE SIDED GYPSUM WALLBOARD FACTOR Amity 2,0 Adjustment factor Ifni!ofthe fallowing conditions ane mer,
-iitachag method is GB and
-Gypsumt board is only attached to one aide, (t Braced Wall Litteea .+/fIlA
@ Stoll,
11011,..0UWN FACTOR-Apply Q.$adjure nnatt fat ear if nlj ofthe following conditions are men
-l sac ug method isDWFl.WSP.SP PBS,PCP and IHPS methods orad
-Limited to I story buildings or top atony of 2 or 3 story buildings nod;
-SteeR bold doom installed at each cod of braced wall panels along the.bTacsd wall lith
C t r . CY.Braced Wall Lind fir Si J
@ Story 1
CRIPPLE WALL BRACING.Apply I.15 ndjtatnaent factor if<nipple,walls odour
Wall panel n,ssins mall be decreased to d$ft,See additional requirements in Section 602,10,9.1
CO Braced Wall Lines..A/A
X-11 is:formation in ibis doe unl ant is subject to eheitge, Proscriptive Wail Bracing' orlraheet Rev.1/2012 Paj e I
rl/ W D Y Structural. Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: L-3
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Lateral
14 City of'Tigard commuNrry DEVELOPMENT DEPARTMENT
Prescriptive Wall Bracing Worksheet
TIGARD 13125 SW Hall Blvd. •Tigard; Oregon 97223 • 503.718.2439 i www.t.igard-or..gov
SEJSrvIIC ADJUSTMENT FACTORS
STORY HEIGHT FACTOR-Select the adjustment factor based oa slory height All Wali Lines
c10ft- 1.0 < ilft=l.l 12 ft=1.2 /,fl
BRACED WALL LINE SPACING FACTOR-Select the adjustment factor if braced wall line spacing is greater than
25 kt. The spacing can only exceed 25 ft once in each direction. When a braced wall line has it parallel braced wall lino on both sides,
the larger adjustment fader shall be lased, See additional requirements in Section 602,10.1.5
25 ft — 1.0 r: 30 ft = 1.2 _35 ft = 1.4
f.0 Braced Wall Lines. A,
Q Story
A > r@ Braced Wall Lines I,Z_
tz Sto1y
WALL DEAD LOAD FACTOR-Apply 0.85 adjustment factor if wall dead load is less than or
equal to 8 pat. (This applies only to interior walls with gypsum board on each side.)
g Braced Wall Lines ./Vfes
a Story
ROOF/CEILING DEAD LOAD FACTOR FOR WALL SLIPPOR'i'IN( -Select adjustment factor based on the rooucesling desei
load and wall support condition, (typical composition or metal roof covering will have a roof dead load_1Spsf if no ceiling flush is
Installed. The addition of a finished ceiling will increase the dead toad to> 15 psf.
_Wall Supporting Roof/Ceiling Destd Load Adj.Factor
Roof Only <15 psf 1.0 _ m
Roof Only >15 pal<2S psf 1.1
Roof piny Occupied Attic > 15 psf<25 psi' 1.2
f / @ Braced Wall Lutes/1,13,1;
Story f
CRIPPLE WAIN.,BRACING-Apply 1,15 adjustment factor if cripple walls occur.
Wall panel spacing shall be decreased to IR ft,Seo additional requirements in Section 602,10.9.1
Braced Wall Lines
C Story
WALLS WITH STONE OR MASONRY VENEER
See Section 602.12 and 703.7. Braced wall length shall not be less than required by Table 602.12(2) /A/A
All information in this document is sciriect to chait1 e. Pettaiptit a Wall l3racing Wdrlcibcet Rev,1/2012 Page 2
`I W D Y Structural. Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: L-4
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Lateral
Tigard
City of . COl fvfUNI'I"Y DEVRT OPMENT DEPARTMENT
1 * Prescriptive Wall Bracing Worksheet
TIGARD13125 SW 11211 Blvd. •Tigard, Oregon 97223 • 503.718.2439 •www.tigard-orgov
CALCULATIONS FOR LENGTH OF BRACED WALL PANELS STORY
Multiply al)adjustment factors and the requited wail bracing lengths to determine the total adjusted wall bracing length for each wall limo for wind
incl for seismic.The bracing length provided shall be equal to ar greater titan the higher of the two. Provide a separate calculation for each story,
WIND CALCULATION Refer to'ruble.R602.10.1.2[1)
r
at aced Bracing braced Required General Wind Specific Wind Total Adjusted grating Length grating
Wall tarty , Method Wall tine Bracing Adjostrrterrt Adjustment (Respired Bracing Length Length
3 Spacing Length Factor Pectoris)' X All Adjustment Fasters) Provided
I W5P li'-Ger' 3.2.r 0.`i a s 2,`"1 7r
2 44Sf i2..?.. 4' mss' ,2_.r
5
A WSP teems" ArS O. 1 0,1 3,V /2 ,z1
B \J'/SP /er 4; ..f,. ' 0, ,) 0. `z , 3,Z-t . 75'
c
1
*A braced Wolf Tina may hove more than one specljie wired adjustment factor.
SEISMIC CALCULATION Refer to'i nble R602.10.1,2(2)
Braced Braeing traced Required Seismic Total Adjusted Bracing length Bracing
Wall Line method Wall tine Bracing Adjustment Dlequired Bracing Length Length
Length Length Factor-4)• X All Adjustment Factors) Provided
1 .niSP /2'.-6,d2,4t it,i 2. 4' 7r
2 'Ws? /?r to" 1. 4 1 it.I 2,61., 0 3 i
3
4
5
A 444f/`C,J'r" 4,''' 4,01 / / 4 .4r f2,51
13 of 3 F 1g'-iY 4,r)' /./ 4 ' 1 to,7 1
U
D _ _ „___ x .._,
L
A braced wall lbs will be lately to have more than one seismic aginso Bent factor.Show all adjustment factors.
All information in this dneument is subject to casae Prescriptive Wait Bracing+Worksheet Rest 1/2012 Page 3
W D Y Structural >Civil Engineers
Job Name: Weaver Addition Job No: 19125 Sheet No: L-5
Client: MFA Architecture&Planning Date: June 2019 By: GGM
Patio post/footing
Post Height , h = 8.50 ft
Post Horit Force, P = 157.5 lbs
Past Mornent 1,339 ft-lbs
Unconstrained pole_base
Footing base, b = 1.33 ft
Est. Footing depth, d = 3,00 ft [iterate depth to convergence ]
Soil lateral bearing, Si - 200 psf l ft ( IBC Table 1806.2]
A= 0.69 ( IBC Section 1806.7.3.2.1 ]
Isolated l deflection coeff 2.0 [ IBC Section 1806.3.4]
Allowable Bearing, S3 = 1200 psf IBC Section 1806.3.3]
d req'd = 2.90 ft ( IBC Eq. 18-1 I
MPB66 allowable M = 1,645 ft-lbs Usa 6x6 post W! MPB66
In'16"die x 3'-O"ft deep ftg__
Check bearing:
A v 1,39 set ft
P max= 1148 lbs
QuFig = 2542 lbs
Y' = 110 psf = 30 deg
z v 3.00 ft 21.1
iCa 0,7 tan V►" _ 0.39
t' = ;r'z K0 tan l' 69.4
Eo= 4.2 ft
Kshape 1 00
QFR}C = 1120 lbs
Wt of pier= 1853 lbs
CALLOW=414-Qp-Wt® 1779 lbs