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SOUND STRUCTURAL SOLUTIONS
E N GIN E E R S
C. Anderson Homes & Development
Chris Anderson!
8215 184th Dr SE
Snohomish, WA 98290
360-243-8398
360-243-8398
s0601011
Plan 1465
1 Story SFR
Chao Chang
Client
SSS # I
Project
Identification
Section
1
2
Date
Engineer Copies
phone
fax
Not Valid Without A Wet Signiture
Engineering Calculations
Wind & Earthquake Design
Framing Design
FILE
CITY 01" P"~T "~"~"I ~s - C()n~truction Plans
H'n ',",n,e 0' '.hl' '-.,rm;' ~'stJ up.1[l \hAse plans, specifi-
v 'n' 'er r '. ''',,!! i11t ~re\'en\ the building official
i",- .0 re ""'in.; the corr".ctlOn of errors in said
'f' s '1rO other data. or frOIll pre'icnting
b' n. I, ~?II1~ carried on thcre!:nder when in
VI nfl n 1"$ 'nd ordinances of thiS Jurisdiction.
" "cl - Uniform Building Code.}
"i. u' dl Jate
By
Description
1/24/2006 DSF ~. oriQinal contract
,
;
21118 66th AVENUE WEST - L:YNNWOOD, WA 98036 - PH: 425-778-1023 - FAX: 206-260-7490
Lateral Analvsis
Plan 1465
s0601011
I~~ ~ I SOONDSTRUCTURAl SOllITIONS
~~iD "N G ;I N I e. s
21118 66th AVE W - LYNNWOOO, WA 98036
PH: 425-778-1023 - FAX: 260-260-7490
Governing Code: 2003 International Building Code all references in right margin are
2003 IBC unless specificly noted otherwise. [Page numbers]
1603.1 General Desion Criteria ~
Desiqn Loads ( osf)
Dead Live Snow
(flat roof)
Roof 15 20 25
Floor 10 40 n/a
Wall 10 n/a n/a
1603.1.4 Wind Desion Criteria r2701
1. Basic Wind Speed 85 mph
2. Wind Importance Factor Iw 1.00
3. Wind Exposure Category B
4. Internal Pressure Coefficient +/- 55
5. Components and Cladding design pressure +/- 10 psf
1603.1.5 Earthauake Desian Data r2701
1. Seismic Importance Factor IE 1.00
2. Short Period Acceleration Ss 1.120
2. l-Second Accelleration Sl 0.470
3. Site Class D
4. Spectral response coefficient Sos 0.79
4. Spectral response coefficient SOl 0.48
5. Seismic Design Category D
6. Seis. Force Resisting System 1. K.
7. Design Base Shear 7167 Ibs
8. Seismic Response Coefficient Cs
9. Response Modification Factor R 6.5
10. Analysis Procedure used Simplified
Table of Contents
F 1609 [284}
T1604.5 [272}
1609.4 [290}
ASCE 7 F 6-5 [49}
1609.6.2.1.1 [291}
T1604.5 [272}
F1615(1) [304}
F1615(2) [304}
T1615.1.1 [322}
EQ 16-38/40 [322}
EQ 16-39/41 [322}
1616.3 [326}
T1617.6.2 [334}
T1617.6.2 [334}
1617.5 [331}
DC
WF
EF
DL
FR
55
5W
5CH
General Lateral Design Criteria
Determination of Wind Forces
Determination of Earthquake Forces
Allowable Stress Design Loads
Shear walls in the Front to Rear Direction
Shear walls in the Side to Side Direction
Shear flow calculations
Schedules
V 1.0
Section 1
DC1
r
Wind Loads Section 6.4 SEI/ASeE 7.02
Roof Pitch
Ridge Elevation
Eave Height
Mean Roof Height, h
Main Windforce Loadina F6-2 f411
End zone distance, 2a, where "a" equals the smaller of 10 percent of least horizontal
dimension (I.h.d.) or 0.4h, but not less than either 4 percent of Ihd or 3 feet.
Diaphragm 1
I.h.d. (ft) = 27;,H37
2a (ft) = 6
5 :12
16.5 ft
10.5 ft
13.5 ft
or
22.62 degrees
6.2 [24J
Areas
A
56
D
348
A
76
D
1
SimDlified Wind Load Method 6.4 {271
Basic Wind Speed
Wind Exposure Category
Wind Importance Factor
Height & Exposure Adjustment
Wind Pressures 1609.6.2.1 (2911
Ps=A."w'Ps30
Minimum pressures shall not be less than assuming the pressures for
zones A, B, C, & D all equal 10 psf, while zones E, F, G, & H all equal zero.
85 mph
B
1.00
^ = 1.00
1609.3 [289J, F1609 [284J
1609.4 [290J
1609.5 [290]. T1604.5 [272J
T1609.6.2.1(4) [297J
EQ 16-34 [291J
1609.6.2.1.1 [291J
Zone Pressures, (,\)(1.,)(0530) T1609.6.2.1(1J {2941
85 Horizontal Pressures
o B C
2.30 10.40
Vertical Pressures
F G
-8.70 -4.60
D
F x= L (p sx'X)
x= A
Diaph
1
Transverse
Fx = 5463 Fxmin = 8010
Longitudinal
Fx = 2527 Fxmin = 2270
V1.0
Section 1
V\,F 1
Earthauake Loads Section 9.0 SEI/ASeE 7.02
Effective Seismic Weight (pst)
roof floor wall
15 10 10
Effective seismic weight at Story (x)
Area Base
18521
roof area (tf) floor area (tf) story height (ft) I wall length (ft) mise load Wx
Diaphragm 1 2260 9 I 345
weight (Ibs) 33900 0 15525 49425
Site Clasification and Criteria Selection 1615. 1616. 1617
USGS Probabilistic Hazard Lookup Link htto:/Ieadesian.cr.usas.aov/html/lookuo-2002-intero.html
htto:/Ieaint.cr. usas.aov/ea/htm IIziocode. html
1.1200
0.4700
D
1.052
1.530
I
1:00
D
1. K.
6.5
Desian Spectral Response Acceleration Parameters 1615.1.2/3 r3221
Substitute equations 16-38 & 16-39 into 16-40 & 16-41 respectively,
2
S OS=-.F a'S s
3
2
S 01 ="3'F v'S 1 5D1 = 0.48
Simplified analvsis Procedure, Seismic base shear 1617.5 r3311
1.2.S OS
v- .w
R
Vertical Distribution, Forces at each level 1617.5.2 [332J
1.2.S OS
F x= .w x
R
Short Period Acceleration
1-Second Acceleration
Site Class
Site Coeffiecient, Fa
Site Coeffiecient, Fv
Seismic Use Group
Seismic Importance Factor
Seismic Design Category
Seis. Force Resisting System
Response Modification Factor
55
51
IE
R
5DS =
Diaphragm
1
V 1.0
0.79
v=
7167
Ibs
7167
Ibs
Section 1
F1615(1) [304J
F1615(2) [304J
T1615.1.1 [322J
T1615.1.2(1) [323J
T1615.1.2(2) [323J
1616.2 [326J
T1604.5 [272J
1616.3 [326J
T1617.6.2 [334J
T1617.6.2 [334J
EO 16-38/40 [322J
EO 16-39/41 [322J
EO 16-56 [331J
EO 16-57 [332J
EF1
1-
Allowable Stress Desio" Loads For Wood lac 2003
Design shall resist the applicable load combinations of Chapter 16.
Shear resistance of diaphragms and shearwalls shall be based on the Principle of Mechanics.
Desian oer Alternative Basic Load Combinations
For worse case effect with wind load, L & S shall be zero. Equations 16-14, 16-15, & 16-16 become,
D +(j)W
Where w equals 1.3, W equals Fx of the respective diaphragm, and D shall be multiplied by two-thirds.
For worse case effect with seismic load, L & S shall be zero. Equation 16-18 controls,
0.9 D + E/1.4
, substitute Equation 16-51 for E
(p QE - 0.2 SDS D)
0.9 D + , simplify & arrange variables
1.4
(0.9 - 0.14 S DS) D + ~ Q E
1.4
Where QE equals F x of the respective diaphragm.
Princiole of Mechanics
Sum the forces in the horizontal direction, diaphragms and shearwalls shall resist,
Wind Design Loads, 1.3 Fx
Front to Rear Side to Side
l Diaphragm Force (Ibs) Force (Ibs)
I 1 10413 3285
Seismic Design Loads, (p/1.4) F x
P = 1.25
Force (Ibs)
6399
Sum the moments about the base of a shearwall, overturning shall resist,
(v,w)'h - ~ (D,; . P.w)
(v.w).h - (0.9 -0.14 S DS) (D,; . P.w)
for wind
for seismic
V 1.0
Section 1
---,
2301.2.1 [445J
2305.1.1 [458J
1605.3.2 [274J
1605.1 [273J
1605.3.2 [274J
1609.1.3 [283J
1605.1 [273J
1617.2.2.2 [331J
DL 1
I
Principle of Mechanics. cont.
Where, v= shear per linear foot of shearwall
w= width of shearwall
h= height of shearwall
D = resisting dead load centered over shearwall
p= resisting dead load at end of shearwall
Free Body Diagram of a ShearWall
p
D
III
- ...
...
(V."
h
SlIIIIIENlS
lL: A8ClJT CDNER
Lw-J
...
....
Shearwall calculations follow, where,
Vx
%
VDx
VT x+1
VTx
L
V
VF
Max Tx
Vs
W
h
dr
dra
df
dfa
TWX+1
Twx
Tex+1
Tex
V 1.0
Total force in the diaphragm above story (x), pounds (Ibs)
Percent of Vx tributary to the shearwalls (SW) in the wall line
Force from the diaphragm above that transfers to the SW's, Ibs
Force from the SW's above that transfers to the SW's, Ibs
Total force in the SW's (VOx + VTx+1), Ibs
Total length of SW's (r w), feet (ft)
Linear force in the SW's (VT xlL), pounds per foot (plD
Greater of v induced by wind or earthquake, plf
Maximum uplift force of the SW's, Ibs
Greater of v in the sheathing induced by wind per _ or earthquake per _, plf
Width of SW, ft
Height of SW, ft
Tributary distance of roof (used to calculate 0) along the width of the SW, ft
Tributary distance of roof (used to calculate P) adjacent to the width of the SW, ft
Tributary distance of floor (used to calculate 0) along the width of the SW, ft
Tributary distance of floor (used to calculate P) adjacent to the width of the SW, ft
Wind uplift force of the SW above that transfers to the SW, Ibs
Wind uplift force of the SW, Ibs
Earthquake uplift force of the SW above that transfers to the SW, Ibs
Earthquake uplift force of the SW, Ibs
Section 1
DL2
Wall Line Story (x) Direction Sheathing SW Dimensions Tributary Dead Loads Wind Uplift Earthquake Uplift
Shear
1 1 F-R VS w h dr dra df dfa T Wx+1 Twx TeX+1 Tex
WIND E.QUAKE NG(6.125 1.75 9 2419 1666
VTX+1 NG(6.125 1.75 9 2419 1666
% of Vx 12.0% I 10.5%
Vox 961.2 671.9367
VTx 961.2 671.9367
L 3.50
v 275 192
VF 275
Max Tx 2,419 1,666
Wall Line Story (x) Direction Sheathing SW Dimensions Tributary Dead Loads Wind Uplift Earthquake Uplift
Shear
2 1 F-R VS w h dr dra df dfa T Wx+1 Twx TeX+1 Tex
WIND E.QUAKE 148 11.50 9 2 2 1117 682
VTX+1 148 7.25 9 2 2 1288 884
235 2.83 9 2 2 1466 1093
% of Vx >59:9%1<.50.0%
Vox 4005 3199.698
VTx 4005 3199.698
L 21.58
v 186 148
VF 186
Max Tx 1 ,466 1,093
Wall Line Story (x) Direction Sheathing SW Dimensions Tributary Dead Loads Wind Uplift Earthquake Uplift
Shear
3 1 F-R VS w h dr dra df dfa T Wx+1 Twx T ex+1 Tex
WIND E.QUAKE 158 6.50 9 2 2 1360 1007
VTX+1 158 9.50 9 2 2 1240 865
% ofVx L 313,9% 39.5%
Vox 3043.8 2527.762
VTx 3043.8 2527.762
L 16.00
v 190 158
VF 190
Max T x 1,360 1,007
V 1.0
Section 1
FR1
--------- 1
Wall Line Story (x) Direction Sheathing SW Dimensions Tributary Dead Loads Wind Uplift Earthquake Uplift
Shear
A 1 S-S VS w h dr dra df dfa TWx+1 Twx T eX+1 Tex
WIND E.QUAKE 225 3.00 9 3 4 216 977
VTX+1 169 4.00 9 11 2 94 832
225 3.00 9 11 2 181 935
% of Vx 50.0% 50.0% 184 3.67 9 14 158 908
Vox 1263.6 3199.698 208 3.25 9 14 201 958
VTx 1263.6 3199.698 153 4.42 9 14 82 818
L 21.33
v 59 150
VF 150
Max Tx 216 977
Wall Line Story (x) Direction Sheathing SW Dimensions Tributary Dead Loads Wind Uplift Earthquake Uplift
Shear
B 1 S-S VS w h dr dra df dfa T Wx+1 Twx Tex+1 Tex
WIND E.QUAKE 53 20.00 9 -416 -238
VTX+1 68 3.50 9 81 348
53 7.33 9 -34 212
% of Vx 50.0% 50.0% 53 9.50 9 -100 135
Vox 1263.6 3199.698 53 5.33 9 26 283
VTx 1263.6 3199.698 53 15.25 9 -273 -69
L 60.91
v 21 53
VF 53
Max T x 81 348
V 1.0
Section 1
SS1
I -------- -
Shear Wall Summary
Story Line Width SW
3.50 PF 275
2 21.58 B 6 186 82% 235 98% STHD8 1466
3 16.00 B 6 190 85% 158 66% STHD8 1360
A 21.33 A 6 150 100% 225 93%
B 60.91 A 6 53 35% 68 28%
V1.0
Section 1
SW1
Shear Transfer Connections
Fasteners and Spacing
en en en en en en en en en en en
:f! :f! :f! :f! :f! :f! :f! :f! :f! ..c :f!
I/) N N 0 LO 0 LO 0 N 00 '<;t 0
Lri N (0 N
CI) (0 LO 0> ('I') ..- ..- ..- ('I') (0 ..-
~ 0> ..- '<;t LO '<;t N 0>
'u ..- ..- ..- ..-
CIS
CL
CIS Q) Q) Q) Q)
0 - - - -
~ .!!l '<;t ell ell ell ell
LO ~ () c::: c::: c::: c:::
U) 'm ('I') 0- N ..- I-
.!!l <( l- I x x x x
iii 'iij C -I I Cl ~ ~ ~ ~
() - c c c c
Z c c 0
'Q. ell 0 0 0 en 0 co co co co
en
~ " en a. en en a. en <( <( <( <(
(0 a. a. E a.
..- " E .S E .S ell ell ell ell
(0 Ci5 Ci5 '5 '5 '5 '5
..- en Ci5 en
N 00 00 ~
- - -
..- LO LO ..-
15 47 10 33 16 72 106 133 89
10 31 6 22 11 48 70 88 59
8 26 5 18 9 41 75 50
7 21 4 15 7 32 60 40
6 20 4 14 7 31 57 38
5 15 3 11 5 12 44 29
3 11 2 8 4 9 33 22
9 2 6 3 25 17
7 1 5 2 22 14
7 1 5 2 21 14
6 1 4 2 16 11
-f f fl~
'"
m - (IiJII. eft lUG)
ROlf {fllUSs (II i ~
(lWiSS CR nt rm ATCMU) J I Er<t: ~ ot ROIl
Wlll ~G} {llIlJSS 0'1
Eta: NAl.S RmR AT GAElEl
SW"X" ...rr 1r4 IIN IlA T
fER PWt "
~ wm SiEAlHOO atQ Al !iPUC(
W (!RKIS AU.aU (l rmu) MID
:=N=. E[CE N.\lS
fl.OCR f eN\. Y AS SHO'~)
(211 m lUG) Ii m"T~
Et<t W4.S <lCM:Cl1CM
sw"y. CANlIDUl m ti'Uet: AU.O'f,D FIlm
PER PWt tW.l. 11ITElllORSW) AT BA& Cf tit!. (IUrl eft lUG}
~ Er<t: NAI.S
:-t! 9J.
~ Eta: NAtS .,.,....... f'Cf.IlIOATlIW
flA'R
(RI ~ IU~ t
r<mlAB NOTE: m-TO-W,6U. flOOO-ID-WML
&: flOO!- T()'-51Ll CfJNNEC110NS PER liE
NOlE: &E H SHEARWAlL smroULE fOR fASlENfRS NIl )PACI1G flEARWALL SOiEDUlE ARE mrr REQRID
-
TYP SHEAR FLOW CONNECTIONS DIAGRAM TYP AL TERN A TE SHEAR FLOW
N.1.S. Hi'rR new 000016 N.l5- ILl MAR new 050016
V1.0 Section 1 SW2
1-
SHEARWALL SCHEDULE *1
IIIII~~ s~ur~: ~l~I~S
1 Materials per Section 2303, and construction per Section 2304 of the 2003 International Building Code.
2 Construct cripple walls per shearwall above, and gable-ends per shearwall below, unless noted otherwise (u.n.o.)
3 Pressue treated 2x HF, u.n.o., sill plate with anchor bolts embedded at least 7 inches, or expansion anchors
embedded at least 4 inches. Use 2" x 2" x 3/16" washers or greater as required. There shall be a minimum of two
bolts per piece spaced not more than 6 feet apart, with one bolt located not more than 12 inches or less than 4
inches from each end of each piece.
4 Connectors per Simpson Strong-Tie or equal. LTP4, LTP5, and LS70 can be substituted for A35.
FLOOR: Install A35's on rim joist or solid blocking between joists.
ROOF: Install H1's on all truss/rafter bearings (including walls not designated as SW), and A35's on gables. When
the specified A35 spacing is less than 24"oc, A35's are required on solid blocking between truss/rafter bearings to
the SW top plate (H2.5's can be substituted for H1's at these locations).
5 Common nails shall meet the following minimum dimensions: 8d=0.131"x2W', 10d=0.148"x3", 16d=0.162"x3W'
6 Attach to 2x HF studs spaced no further than 16"oc, u.n.o.
7 Block all panel edges, and field nail at 12"oc, u.n.o. Do not pentrate nails past flush,
8 Abutting panel edges require a 2-2x (lamination connection same as WALL-TO-FLOOR), 3x, or greater stud
9 3x, 2-2x, or greater sill plate required.
Job Number Date
50601011 1/24/2006
SHEAR FLOW CONNECTIONS
SILL-TO- ROOF-TO-WALL, WALL-TO-FLOOR
FLOOR-TO-WALL, *5
FOUNDATION *3 FLOOR-TO-SILL *4
16d slant @ 12"oe
or A35 @ 36"oe
sw
WALL SHEATHING
CALL
OUT
*2
CALL
OUT
*2
SHEATHING
*6
EDGE
NAILS
*5 *7
5/8"0 @ 60"oe or
112"0 @ 60"oe
5/8"0 @ 60"oe or
112"0 @ 48"oe
16d @ 12"oe
7/16"
8d @ 6"oe
A35 @ 24"oe
16d @ 10"oe
HOLDOWN SCHEDULE /111' SOUND STRUCl1JRAl SOLUTIONS
1 Simpson or equal. Locate at end of SW, u.n.o. Foundation embedment and minimum end distance per '''GIMIERS
manufacturer (deepen foundation as required).
2 Use manufacturer recommended fasteners. Attach to 2-2x HF studs, u.n.o.
3 Connect to holdown with threaded rod and coupler as required.
Job Number Date
50601011 1/24/2006
HOLDOWN / STRAP FASTENERS FOUNDATION COMMENTS
*1 *2 ANCHOR *3
STHD14/14RJ 38/30-16d sinker N/A
STHD8/8RJ 24-16d sinker N/A
V 1.0
Section 1
SCH1
1-
Title:
Dsgnr:
Description:
Scope:
Job#
Date: 9:08AM, 25 JAN 06
Rev: 580004
User: KW-0606655. Ver 5.8.0. 1-Dec-2003
(c)1983-2003 ENERCALC Engineering Software
Page 1
50601011 d060124 eC.ecw:Calculations
General Timber Beam
Description 0-1
General Information
Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined
Section Name 4xB
Beam Width
Beam Depth
Member Type
3.500 in
7.250 in
Sawn
Center Span
Left Cantilever
Right Cantilever
.Hem Fir, NO.2
Fb Base Allow
Fv Allow
FcAllow
E
Load Dur. Factor
Beam End Fixity
1.000
Pin-Pin
5.75ft .....Lu
ft .... .Lu
ft .... .Lu
850.0 psi
150.0 psi
405.0 psi
1,300.0 ksi
0.00 ft
0.00 ft
0.00 ft
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
128.40 #/ft
#/ft
#/ft
LL
LL
LL
513.30 #/ft
#/ft
#/ft
I
I Summary
I
Beam Design OK
Span= 5.75ft, Beam Width = 3.500in x Depth = 7.25in, Ends are Pin-Pin
Max Stress Ratio 0.939 : 1
Maximum Moment 2.7 k-ft
Allowable 2.8 k-ft
Max. Positive Moment 2.65 k-ft at 2.875 ft
Max. Negative Moment 0.00 k-ft at 0.000 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mallow 2.82
fb 1,037.93 psi tv
Fb 1,105.00 psi Fv
I Deflections
109.06 psi
150.00 psi
Reactions...
Left DL
Right DL
Maximum Shear * 1.5
Allowable
Shear:
Camber:
@ Left
@ Right
@ Left
@ Center
@Right
2.8 k
3.8 k
1.84k
1.84 k
0.000 in
0.033 in
0.000 in
1.84k
1.84 k
.
. Center Span... Dead Load
Deflection -0.022 in
...Location 2.875 ft
...Length/Defl 3,157.1
Camber ( using 1.5 · D.L. Defl ) ...
@ Center 0.033 in
@ Left 0.000 in
@ Right 0.000 in
Total Load
-0.109 in
2.875 ft
631.71
Left Cantilever...
Deflection
...Length/Defl
Right Cantilever...
Deflection
...Length/Detl
Section 2
0.37 k
0.37 k
Max
Max
Dead Load
0.000 in
0.0
0.000 in
0.0
Total Load
0.000 in
0.0
0.000 in
0.0
Title:
Dsgnr:
Description:
-
Job#
Date: 9:09AM, 25 JAN 06
Scope:
Rev: 580004
User. KW-0006655, Ver 5.8.0, 1-Dec-2003
(c)1983-2003 ENERCALC Engineering Software
Page 1
50601011 d060124 eC.ecw:Calculations
Description 1-1
General Timber Beam
General Information
Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined
Section Name 4x8
Beam Width
Beam Depth
Member Type
3.500 in
7.250 in
Sawn
Load Dur. Factor
Beam End Fixity
1.000
Pin-Pin
Center Span
. Left Cantilever
Right Cantilever
.Hem Fir, NO.2
Fb Base Allow
Fv Allow
Fc Allow
E
5.25 ft .... .Lu
ft .... .Lu
ft .... .Lu
850.0 psi
150.0 psi
405.0 psi
1,300.0 ksi
0.00 ft
0.00 ft
0.00 ft
Span= 5.25ft, Beam Width = 3.500in x Depth = 7.25in, Ends are Pin-Pin
Max Stress Ratio 0.699 : 1
Maximum Moment 2.0 k-ft
Allowable 2.8 k-ft
Max. Positive Moment 1.97 k-ft at 2.625 ft
Max. Negative Moment 0.00 k-ft at 5.250 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mallow 2.82
fb 772.63 psi tv
Fb 1,105.00 psi Fv
Deflections
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
Summary
Center Span... Dead Load
Deflection -0.025 in
...Location 2.625 ft
...Length/Defl 2,477.1
Camber ( using 1.5 · D.L. Deft) ...
@ Center 0.038 in
@ Left 0.000 in
@ Right 0.000 in
215.00 #/ft
#/ft
#/ft
LL
LL
LL
358.00 #/ft
#/ft
#/ft
Maximum Shear * 1.5
Allowable
Shear:
Camber:
@ Left
@Right
@ Left
@ Center
@ Right
88.91 psi
150.00 psi
Reactions...
Left DL
Right DL
Max
Max
0.56 k
0.56 k
Total Load
-0.068 in
2.625 ft
929.44
Left Cantilever...
Deflection
... Length/Defl
Right Cantilever...
Deflection
...Length/Deft
Dead Load
0.000 in
0.0
0.000 in
0.0
Section 2
I
Beam Design OK
2.3 k
3.8 k
1.50k
1.50k
0.000 in
0.038 in
0.000 in
1.50k
1.50 k
Total Load
0.000 in
0.0
0.000 in
0.0
Title:
Dsgnr:
Description:
Job#
Date: 9:09AM, 25 JAN 06
Scope:
Page 1
s0601011 d060124 ec.ecw:Calculations
Rev: 580004
User: KW-0006655, Ver 5.8.0, 1-Dec-2oo3
(c)1983-2oo3 ENERCALC Engineering Software
General Timber Beam
Description 1-2
General Information
Code Ref: 1997/2001 NOS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined
Section Name 6x10
Beam Width
Beam Depth
Member Type
Center Span
Left Cantilever
Right Cantilever
Douglas Fir - Larch, NO.2
Fb Base Allow
Fv Allow
Fc Allow
E
5.500 in
9.500 in
Sawn
8.75 ft .... .Lu
ft .... .Lu
ft .... .Lu
875.0 psi
170.0 psi
625.0 psi
1,300.0 ksi
Load Our. Factor
Beam End Fixity
1.000
Pin-Pin
0.00 ft
0.00 ft
0.00 ft
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
215.00 #/ft
#/ft
#/ft
LL
LL
LL
358.00 #/ft
#/ft
#/ft
I
I Summary
I
Beam Design OK
Span= 8.75ft, Beam Width = 5.500in x Depth = 9.5in, Ends are Pin-Pin
Max Stress Ratio 0.909 : 1
Maximum Moment 5.5 k-ft
Allowable 6.0 k-ft
Max. Positive Moment 5.48 k-ft at 4.375 ft
Max. Negative Moment 0.00 k-ft at 0.000 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mallow 6.03
fb 795.43 psi tv
Fb 875.00 psi Fv
I Deflections
Maximum Shear * 1.5
Allowable
Shear:
Camber:
@ Left
@Right
@ Left
@ Center
@Right
71.97 psi
170.00 psi
Reactions...
Left DL
Right DL
0.94 k
0.94 k
Max
Max
3.8 k
8.9 k
2.51 k
2.51 k
0.000 in
0.083 in
0.000 in
2.51 k
2.51 k
I
Center Span... Dead Load
Deflection -0.056 in
...Location 4.375 ft
...Length/Detl 1,891.7
Camber ( using 1.5 * D.L. Defl ) ...
@ Center 0.083 in
@ Left 0.000 in
@ Right 0.000 in
Total Load
-0.148 in
4.375 ft
709.79
Left Cantilever...
Detlection
... Length/Detl
Right Cantilever...
Deflection
... Length/Detl
Dead Load
0.000 in
0.0
0.000 in
0.0
Section 2
Total Load
0.000 in
0.0
0.000 in
0.0
r---
Title:
Dsgnr:
Description:
Job#
Date: 9:09AM, 25 JAN 06
Scope:
Page 1
50601011 d060124 ec.ecw:Calculations
Rev: 580004
User: KW.{)6Q6655, Ver 5.8.0, 1-Dec-2003
(c)1983-2003 ENERCALC Engineering Software
General Timber Beam
Description 1-3
General Information
Code Ref: 1997/2001 NDS, 2000/2003 IBC, 2003 NFPA 5000. Base al/owables are user defined
Section Name 5.125x9.0
Beam Width
Beam Depth
Member Type
Load Dur. Factor
Beam End Fixity
1.000
Pin-Pin
Center Span
Left Cantilever
Right Cantilever
GLB Douglas Fir, 24F - V4
Fb Base Allow 2,400.0 psi
Fv Allow 240.0 psi
Fc AI/ow 650.0 psi
E 1,800.0 ksi
5.125 in
9.000 in
GluLam
13.25 ft ..... Lu
ft .... .Lu
ft .... .Lu
0.00 ft
0.00 ft
0.00 ft
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
215.00 #/ft
#/ft
#/ft
LL
LL
LL
358.00 #/ft
#/ft
#/ft
I
I Summary
I
Beam Design OK
Span= 13.25ft, Beam Width = 5.125in x Depth = 9.in, Ends are Pin-Pin
Max Stress Ratio 0.909 : 1
Maximum Moment 12.6 k-ft
Allowable 13.8 k-ft
Max. Positive Moment 12.57 k-ft at 6.625 ft
Max. Negative Moment 0.00 k-ft at 13.250 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mal/ow 13.84
fb 2,180.97 psi tv
Fb 2,400.00 psi Fv
I Deflections
Maximum Shear * 1.5
Allowable
Shear:
Camber:
@ Left
@Right
@ Left
@ Center
@Right
123.45 psi
240.00 psi
Reactions...
Left DL
Right DL
1.42 k
1.42 k
Max
Max
5.7 k
11.1 k
3.80k
3.80k
0.000 in
0.399 in
0.000 in
3.80k
3.80k
I
Center Span... Dead Load
Deflection -0.266 in
...Location 6.625 ft
...Length/Defl 597.6
Camber ( using 1.5. D.L. Detl ) ...
@ Center 0.399 in
@ Left 0.000 in
@ Right 0.000 in
Total Load
-0.709 in
6.625 ft
224.24
Left Cantilever...
Deflection
... Length/Detl
Right Cantilever...
Detlection
... Length/Detl
Dead Load
0.000 in
0.0
0.000 in
0.0
Section 2
Total Load
0.000 in
0.0
0.000 in
0.0
Title:
Dsgnr:
Description:
Job#
Date: 9:08AM, 25 JAN 06
Scope:
Rev: 580004
User: KW-0606655. Ver 5.8.0, 1-Dec-2003
(c)1983-2003 ENERCALC Engineering Software
Page 1
50601011 d060124 eC.ecw:Calculations
Description 1-4
General Timber Beam
General Information
Code Ref: 1997/2001 NOS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined
Section Name 4xB
Beam Width
Beam Depth
Member Type
Load Our. Factor
Beam End Fixity
3.500 in
7.250 in
Sawn
1.150
Pin-Pin
Center Span
Left Cantilever
Right Cantilever
.Hem Fir, No.2
Fb Base Allow
Fv Allow
Fc Allow
E
6.33 ft .... .Lu
ft .... .Lu
ft .... .Lu
0.00 ft
0.00 ft
0.00 ft
850.0 psi
150.0 psi
405.0 psi
1,300.0 ksi
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
215.00 #/ft
#/ft
#/ft
LL
LL
LL
.
358.00 #/ft
#/ft
#/ft
I Summary
I
Beam Design OK
Span= 6.33ft, Beam Width = 3.500in x Depth = 7.25in, Ends are Pin-Pin
Max Stress Ratio 0.885 : 1
Maximum Moment 2.9 k-ft
Allowable 3.2 k-ft
Max. Positive Moment 2.87 k-ft at 3.166 ft
Max. Negative Moment 0.00 k-ft at 6.333 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mallow 3.25
fb 1,124.27 psi fv
Fb 1,270.75 psi Fv
I Deflections
107.26 psi
172.50 psi
Reactions...
Left DL
Right DL
Maximum Shear * 1.5
Allowable
Shear:
2.7 k
4.4 k
1.81 k
1.81 k
0.000 in
0.081 in
0.000 in
Camber:
@ Left
@Right
@ Left
@ Center
@ Right
0.68 k
0.68 k
Max
Max
1.81 k
1.81 k
I
Center Span... Dead Load
Deflection -0.054 in
...Location 3.166 ft
... Length/Defl 1 ,411.2
Camber ( using 1.5 . D.L. Def! ) on
@ Center 0.081 in
@ Left 0.000 in
@ Right 0.000 in
Total Load
-0.144 in
3.166 ft
529.51
Left Cantilever...
Deflection
.. . Length/Def!
Right Cantilever...
Deflection
...Length/Defl
Section 2
Dead Load
0.000 in
0.0
Total Load
0.000 in
0.0
0.000 in
0.0
0.000 in
0.0
Title:
Dsgnr:
Description:
Job#
Date: 9:08AM, 25 JAN 06
Scope:
Page 1
s0601011 d060124 ec.ecw:Calculations
Rev: 580004
User. KW-0006655. Ver 5.8.0, 1-Dec-2003
(c)1983-2003 ENERCALC Engineering Software
General Timber Beam
Description 1-5
General Information
Code Ref: 1997/2001 NOS, 2000/2003 IBC, 2003 NFPA 5000. Base allowables are user defined
Section Name 6x12
Beam Width
Beam Depth
Member Type
Center Span
Left Cantilever
Right Cantilever
Douglas Fir - Larch, NO.2
Fb Base Allow
Fv Allow
Fc Allow
E
5.500 in
11.500 in
Sawn
16.50 ft .... .Lu
ft .... .Lu
ft .... .Lu
875.0 psi
170.0 psi
625.0 psi
1,300.0 ksi
Load Our. Factor
Beam End Fixity
1.150
Pin-Pin
0.00 ft
0.00 ft
0.00 ft
I Full Length Uniform Loads
Center DL
Left Cantilever DL
Right Cantilever DL
82.50 #/ft
#/ft
#/ft
LL
LL
LL
137.50 #/ft
#/ft
#/ft
I
I Summary
I
Beam Design OK
Span= 16.50ft, Beam Width = 5.500in x Depth = 11.5in, Ends are Pin-Pin
Max Stress Ratio 0.736 : 1
Maximum Moment 7.5 k-ft
Allowable 10.2 k-ft
Max. Positive Moment 7.49 k-ft at 8.250 ft
Max. Negative Moment 0.00 k-ft at 16.500 ft
Max @ Left Support 0.00 k-ft
Max @ Right Support 0.00 k-ft
Max. Mallow 10.17
fb 741.10 psi tv
Fb 1,006.25 psi Fv
I Deflections
Maximum Shear * 1.5
Allowable
Shear:
Camber:
@ Left
@Right
@ Left
@ Center
@Right
43.04 psi
195.50 psi
Reactions...
Left DL
Right DL
0.68 k
0.68 k
Max
Max
2.7 k
12.4 k
1.81 k
1.81 k
0.000 in
0.228 in
0.000 in
1.81 k
1.81 k
Total Load
-0.405 in
8.250 ft
489.05
Dead Load
0.000 in
0.0
I
Center Span... Dead Load
Deflection -0.152 in
...Location 8.250 ft
...Length/Defl 1,304.1
Camber ( using 1.5 * D.L. Defl ) ...
@ Center 0.228 in
@ Left 0.000 in
@ Right 0.000 in
Left Cantilever...
Deflection
...Length/Defl
Right Cantilever...
Deflection
...Length/Defl
0.000 in
0.0
Section 2
L
Total Load
0.000 in
0.0
0.000 in
0.0