Plans OFFICE COPY
y
RECEIVED
SEP 0 2 2"1
s c o r� P. A ra v CITY OF1' --1
BUILDING Div , : N
t
to ( • ` r OFFICE COPY
CITY OF TIGARD...
REVIEWED FOR CODE COMPLIANCE
Subject: Fought & Company Shop doors - East Approved: NIV J
OTC; { J
Objective: Analysis of the members and connections : Permit#: j,3u a zel - � .O a..2
Requested by: Steve Fugate, QA Manager Address: )y�Sg 72i LUP
Prepared by: Habib Sadid, Ph.D., P.E., Chief Engineer Suite#:
Date: 5-Aug-20 By; -`�— Date: 9 _a3- aO
The shop doors are modeled using RISA Finite Element program and analyzed for two extreme
positions. Th; a - -4 I - • mbers and connections are well below the allowable values,
as shown belo . A
0
Coif a I
a E � ..0A
a 1 : .0,0 itkliZe,, '-1.7
T.
i qigefi
n g 0. r › g
F
{,� q
T i
f C .- tl s if -it .r. C .' '8 C Cj U'
,,,,,:4,L
•
cetCoa ga gar4 13, UyX
ce, °. U a t z c R nc o no `Ii cn r i uy rq c o (.( - �J® 2b 0 2
1 - 55' -
L.. I l'
"PI( 21' 4"
HSS6x3x1/4 41--" I vvi 0x54 - W I 0304 WI Ox54 i
Z1' - 4 3/8" I
21' - 4 3/8" W8x2 I
I
. .1 i' 2 1 4"W I Ox4- T, W I IN45 W I Ox45M ' ' ; ; lir
14 10
W8x 1 8 7'-3 114°'
1
61' "- 6 lio•
1 1._6.• i .-0 3/4" K'- 11 I i4"
--DP 14 014 iv I 6'- Weight = 3,000 lbs.
Weight = 3,000 lbs.
4'---- 27' - Weld size and length for hangers and HSS
5"1 6" fillet, all around on hangers
2
Position - 1
Reactions at the connections supporting the header beams.
130 lbs. 846 lbs• 3,145 lbs. 4,052 lbs. 612 lbs. 183 lbs,
p a
}tl W 3 r t� fmRe t, f
3,000 Ibs 3,000 lbs
3
Left Header beam (Track) W8x 18 Beam: M24 f
Shape: W8X18
0 at 21.137 11
Material. N15 DY in
Length: 21.36 ft
Okay IJot N15 Dz in
J Joint: N15A -.001 at8.232ft
LC 1:Sett
Code Check: 0.127 {bendingt ! -.062 at 10.012 ft
Report Based On 87 Sections
.576 at 0 ft�y {
.102 at0ft Vyl;ry _ { k OatOR
A � � k Vz ---- -- - k
-.139 at16.688ft -.002 at16.688ft
-1.218 at 21.36 It
4.784 at 21.36 ft
Oat 16.688 ft .011 at 16.68811
T k-ft i My k-ft
Mz It-ft -.007 at 16,465 ft
-1.322 at 8.9 ft
3.778 at21.36ft -.022a13.115ft
ft ksi
.019at lt
fa kst
-.026 26 at 6.688 ft
tr -•. ksi
.022 at 3.115 ft -3.778 at 21.3611
AMC 95th(350-16):ASO Code Check
Direct Analysis.Method
Max Bending Check 0.127 Max Shear Check 0.033 ty) Max Deft Ratio U4110
Location 21.36 ft Location 21.36 ft Location 10.012 ft
Equation H1-1b Span 1
Bendng Flange Compact Compression Flange Non-Slender
Bendng Web Compact Compression Web Non-Slender
y-y z-z
Fy 50 ksi Lb 21.36ft 21.36ft
Pnctom 18.234 k Lctr 208.231 74,719
Pnttom 157.485 k
Mnyiom 11.627 k-ft LComp Flange 21.36ft
Mnziom 37.72 k-ft L-torque 21.36 ft
Vnylom 37.444 k Tau_b 1
Vnziom 62.246 k
CD 2.589
1
Right Header beam (Track) W8x21 Beam M28
Shape: W8X21 0 at.667 ft
Material: A992 DY in
Length: 21.333ft
Joint: N17 Dz in
_ Okay J Joint: N16 Oat 12 ft
LC 1:Self
- Code Check. 0,091 (bending) -.033 at 9.778 ft
Report Based On 97 Sections
1.157 at Oft
.176 at 13.778ft -71
0 at 5.555ft
A anrk .-;. Vz k
',.., -256 at Oft VY 0 at 13.778 ft
-.326 at 21.333 ft
'.,,. 4.612.at 0 ft
4
0 at 13.555ft
T k-ft MY k-ft
0 at Oft Mt ....m,. k-ft 0 at 5.555 ft
-1.261 at 5.333 A
3043atOft -009 at16.444ft
.u, ftksa
.029 at 13.778 ft rill"
fa ksi
-.041 at 0 ft
.009 at16.444ft -3.043 at0ft
AISC 15th(354-16):ASD Code Cheek
Direct Analysis Method
/tax Bending Check O.091 Max Shear Check 0.028(Y) Max Deft Ratio 117661
Location Oft Location Oft Location 9.778ft
Equation N1-lb Span 1
Bending Flange Compact Compression Flange Non-Slender
1 Bending Web Compact Compression Web Non-Slender
y-y z-z
Fy 50 ksi Lb 21.333ft 21.333ft
Pnclom 22.408 k Ldr 203.271 73.219
Pntlom 184-431 k
Mnylom 14.197 k-ft L Comp Flange 21,333 ft
Mnztom 50.898 k-ft L-torque 21.333ft
'v ny/om. 41.4k Tau_b 1
:onzlom. 75.737 k
Cb 2.94
5
Left HSS Hanger - HSS 6x3x1/4rt column, M2
.001 atOft
Shape: H5S6X3X4 Oat 1.2ft
Material: A572Cr.50 en
Length: 1.2 ft
See Calculations below I Joint N6 Dz in
J Joint 148
LC1:Self 0at.375ft
Code Check: 0.055 Mending) Oat 12 ft
= Okay Report Based On 97 Sections
-.665 atOft
Vy
173atoft k
Oat Oft
Vz — k
A � k
.157 at 1.2ft
-.179 at lift
Wiz k-ft
0 at0ft Oalolt
T k-ft My k-ft
0 at l.2ft
977 at 0 ft '..
2.C69 at0ft -.379 at 1.2ft
ft ksl
045 at0ft .:,
• PPP
to ksf
041 at 1.2 ft r3
fc ksi
.379 at1.2ft -2059 at Oft
AISC 15th(360-16):ASD Code Check
Direct Analysis Method
Max Bending Check 0.055 Max Shear Check 0.015(y)
Location Oft Location oft
Equation Ill-1 Max Deft Ratio U10000
Bending Flange Compact Compression Flange Non-slender
Bending Web Compact Compression Web Non-slender
y-y rz
Fy 50 ksi Lb 1.2ft 1.2ft
Pnclom 113.802 k Lclr 11.819 8.844
Pntfom 114.97 k
Mnytom 11.003 k-ft L Comp Flange 1.2ft
Mnzlom 17.939 k-ft L-torque 1.2ft
Vnylom 44.376 k Tau_b 1
Vnziom 19.262 k
Tnfom 11.059 k-tt
Cb 1.485
6
Right HSS Hanger - HSS 6x3x1/4" Column: M3 Oat 1.2 ft
Shape: H SS&X3X4 001 at0ft
Material: A572 Gr.50 Dy -- --- in
Length: 1.2 ft
See Calculations below IJoint N7 Da J Joint: N9 0at12ft
LC 1: -.002 at O ft
Check
Code Check 0.089 (bending)
Okay Report Based On 97 Sections
1.913at0lt
-.532 at0ft Oat Oft
A 11 k Yz
-.548 at 1.2 ft k
'.. .747atOR
OatOft ° .., kft Oat1.2fl
T k-ft .m,(,k My k-ft
0 at 0R
-1.549 at 1.2 ft
3.283 at1.28 -.012 at.3881t
ft ksi
-.139 at Oft
fa ksi
-..i4343 at t2R
fc ksi
.012 at.388ft -3.283at12R
MSC 150h(360-16) ASO Code Check
Direct Analysis Method
Max Bending Check 0.089 Max Shear Check 0.043(y)
Location 1.2ft Location Oft
Equation H1-lb Max Defl Ratio Lf10000
Bending Flange Compact Compression Flange Non-Slender
Bending Web Compact Compression Web Non-Slender
y-y .Z-Z
Fy 50ksi Lb 1.2 ft 1.2 ft
Pnctom 113.802 k Lch 11.819 5.844
Pnttom 114.97 k
Mnylom 11.003 k-ft L Comp Flange 1.2 ft
Mnzfom 17.939 k-ft L-torque 1.2ft
Vnyfom 44.376 k Ta u_b 1
Vnztom 19.262 k
Tnfom 11.059 k-ft
Cb 2.171
7
Position - 2
Reactions at the connections supporting the header beams.
724 Ibs. 3,2I2 bs, 5I4 Ibs. 408 Ibs 2,912 Ibs. 1, 197 lbs.
A A
l
SUAWNWIWWWW3 immaA ma
WW BAMA mmm REININIMINNIUMNIRMNIUMnsem
mMBEm Et trtAm . m' mmmB%mmAffi Am WmmA°
MM9mM ndd 1 II #- mam emia mmman m mmm,
m� m ■■AMit AM'mA�® i° "i k ■l' �xmttmmAmaAmmmA mmmmamma'
nm Nit mmMmm Mr,1M um111QM 5 ., +!M®M■: mmmmm9faCtkmmmiAmmAffimOHmmmmrammemmilmmtsmismsoMmemmum am'
mmE3m$ ■ mA A AAtMENIZZO mmmmmmmmmmmm<rAm mWA Mly,
NEMI ddwanitmedIale AAmm AAm ■ mmINA'mNAISIIIMISTII
AA mute `UM zwitaiii � m AA' m■an LI g
sou mm *KR *NM . jMIMm Mm NUM I UMmmmO smionmimmmm flmAmmmmmmmsue Nummula ONNEWEISHISsmi t
14Z-2 al ill
.4. mAiilli M MMy 6AmAmmmMlmam®s ®® A A�;.vomusakdowar '
Mal KS
Cal gas MElatil M I it NC ustrounmmmt NGel _mXm14eingna ,
muUNM s mAmmmmm mama am mammalian/AM;
Ir 7
3,000 lbs 3,000 1bs
8
Left Header beam (Track) W8x18 Beam: M23
Shape. W8X18 .003 at 19.13511
Material: A992 Dy ---
Okay Length I Joint N6 ft l7z in
JJoint:Joint N15 Oat 11.348 ft
IC V Self
Code Check: 0.051 {bending) -.027 at 6.452 ft
Report Based On 97 Sections
{ 706 at 0 ft -�--
i
.179 at 0 ft Bat 1.78ft
A 111010010.1.111Samm k Vi .......................... k
VY 0 at 12.905 ft
-.129 at 12.905 ft k
-.238 at 21.36 ft
1.448 at 21.36 ft '..
0 at12.9051t .002 3t12.90511
T k-ft Mz k-ft MY K-ft
0 at 1.78 ft -.001 at 21.36 ft
-1.249 at 1.78 ft
I �
1.148 at21.36ft -.007 at0ft
ft ksi
.034
ft
02 a O
fa °� ksi
-.025 at 12:905 R ;r"
fc ksi
.007 at0lt -1.148 at21.36ft
AISC 15th(360-16}:ASD Code Check
Direct Analysis Method
Max Bending Check 0.051 max Shear Check 0.019(y) Max Deft Ratio L19523
Location 21.36ft Location Oft Location 6.452ft
Equation H1-lb Span 1
Bending Flange Compact Compression Flange Non-Slender
Bending Web Compact Compression Web Non-Slender
Y-I z-z
Fy 50Ksi Lb 21.36ft 21.36 ft
PncFom 18.234 k Lcir 208.231 74.719
Pnttiom 157.485 k
Mnyfom 11.627 k-ft L Comp Flange 21.36 ft
Mnzfom 28.904 k-ft L-torque 21.36 ft
Vnvlom 37.444 k Tau_b 1
Vnv'om 62246 k
Cb 1.984
9
•
Right Header beam (Track) W8x21 Beam M29 •
Shape: W8X21 014 at 22.333ft
Material: A992 in '.. 0 at 22.333 fti
Length: 22.333 ft DY
Okay !JointN16 Dz - in
J Joint N11 0 at 10.701 ft
LC 1:Self 1
Code Check: 0.107 (bending) -.05 at 15.121 It
` Report Based On 97 Sections I
1--
__,2.571 at0ttII
.111 at18.3781t 0at2559R
A - k Yz ----- k
-.256 at O ft W - IIr k 0 at 10.236 ft
-1.173 at21.17It
i.
1634 at 0 ft
0 at 10.236 R 003 at 10.003 R
I T k-ft k-ft My -- k-ft
0 at 2559 R -.002 at 2.559 ft
-3.675 at 2.559 ft
IIT 2.43 at 2.559 It
ft ksi
ikAAL
at 18.378 R ',
is ksi
-04.042 at O R
fc ksi '
-2.43 at 2.559 ft
AISC 15th(360-16):ASD CoUe Check
Direct Analysis Method
Max Bending Check 0.107 Max Shear Check 0.062(y) Max Deft Ratio L11741
Location 2.559ft Location 0 ft Location 22333 ft
Equation H1-lb Span 2
Bending Flange Compact Compression Flange Hon-Slender
Bending Web Compact Compression Web Non-Slender
y-y z-a
Fy 50 ksi Lb 22.333 ft 22.333 ft
Pnciom 20446 k Lcfr 212.E 76.652
PnVom 184.431 k
Mnylom 14.197 k-ft L Comp Flange 22.333 ft
Mnzlom 34.47 k-ft L-torque 22.333ft
Vny/om 41.4 k Tau_b 1
Vnz/om 75.737 k
Cb 1.806
10
Left HSS Hanger - HSS 6x3x1 4" Column: M2 gatOfl
Shape: HSS6X3X4 OatOft
Material: A572 Gr.50DY Dz
in
Length:
1.2 ft
See Calculations below 1Joint. N6
• J Joint. PIS
LC1:Sett 0at1.211 Oat 1.2ft
• Code Check: 0.015 (bending)
Okay Report Based 4n 97 Sections
• -.33 at Oft
.178 at Oft
A ��k 0at0fl
.162 at 1.2ft
.139 at 1.2 ft
0 at 0 ft :` k_ft� 0 at O ft
k-ft My k-ft
O at 1.2 ft
-.257 at 0 It
.545 at0ft -.003 at.775fl
ft ksi
.046 at 0 ft
Ea kst
.042 at 1.2 ft
411111
fc ksi
.003 et.7751t -.545 at 0 ft
"MSC 45th(360-16):ASO Code Check
Direct Analysis Method
Max Bending Check 0.015 Max Shear Check 0.007(y)
Location Ott Location Oft
Equation H1-16 Max Defl Ratio Lf10000
Bending Flange Compact Compression Flange Non-Slender
Bending Web Compact Compression Web Non-Stender
y-y z-z
Fy 50 kat Lb 1.2ft 1.2ft
Pnctom 113.802 k Lcfr 11.819 6.844
Pntfom 114.97 k
Mnytom 11.003k-ft LComp Flange 1.2ft
Mnztom 17.939 k-ft L-torque 1.2ft
Vnylom 44.376 k Tau_b 1
Vnzlom 19.262 k
Tntom 11.059 k-ft
Cb 2.182
11
tl Column: M3 -.........----- -._---
Right HSS Hanger - HSS 6x3x1/4 Oatrift
Shape: N556X3X4 Oatl.2ft
Material: A572Gr.50 Oy --._----- ------ €n
Length: 1.2 ft
See Calculations below I Joint: N7
J Joint: 149 ❑z -- ---_-_--- ----
LC 1:Self 0 at.488 ft 4 at 1.21t
Code Cnedk 0.022(ttandrng)
Okay Report Based On 97 Sections
-.207 at 0 ft ., -303 at Oft
A k
atOtt
VE k
-.223 at 1.2 ft
-.007 at Oft
Wiz k-ft
0 at06 0at0ft
T k-It My k-ft
0 at 1.2 ft
-.371 at 1.2 ft
.786at1.2ft -.015at06
ft ksi
-054 at O ft
fa ks
-.058 at 1.2 ft
fc kat
.015atOft -786 at1.2ft
AISC 16th(360-16):ASD Code Check
Direct Analysts Method
Max Bending Check 0.022 Max Shear Check 0.007 ty)
Location 1.2ft Location Oft
Equation NI-lb Max Deft Ratio U16000
Bending Flange Compact Compression Flange Non-Slen4er
Bending Web Compact Compression Web Non-Slender
y-y z-z
Fy 50ksi Lb 12ft 1.211
Pnclom 113.802 k Lcir 11.819 6.844
Pntiom 114..97 k
Mnyrom 11.003k-ft LComp Flange 1.2ft
Mnztom 17.939 k-ft L-torque 1.2 ft
Vny/om 44.376 k Tau_b 1
Vnziom 19.252 k
Tntom 11.059 k-ft
Cb 1.646
12
Maximum axial force in the HSS hanger is 548 lbs., 0.14 ksi
Maximum Bending Stress 3.3 ksi - Tension and Compression A
1/4"
Total Tensile Stress = 0.14 + 3.3 = 3.44 ksi Okay y
x
6"
Factor of Safety w.r.t. failure by yielding = 50/3.44 = 14.5
Weld Strength:
14— 3" —►I
Weld Str./in./1/16th. = 0.928 Kips in Shear Weld: 5/16 - Fillet - All Around
Resisting Bending Moment:
Mx = 0.928*5*3*6/12 = 6.96 K-ft. > 3.3 K-ft. Okay
Note: Vertical weld not counted for.
Share Propert;ee .,m 4:. E.:D
{ y<% Shape Name HSS6X3X4
1 rl' ;"
Qapth 5 _ . a' 44'I f
i :"Math.;3 ,x; _t 71S
311 Thic c 233 ��� . ,W =•••
a' 5.7 _ . .
firi +,
_ 1 17
i) 14.2 ::
q rot :r.. • m
+..a ::�:
13
Maximum reaction on the header beam supports is 4,052 lbs. = 4.1 Kips
. Header beam W8x21
�:.. ;,4 Shape ProP r-hes _. m' :.
9 r 2 ,.._.
1:3, 1 ,,
1t . �' •a Shape Nam. �.t1 .....
, 1 Irv,.
;Flange'Math 3 27 in Zz n 4 _�__ in^3 �,
;� �_ 3FlangeThick ! in Gwt 152 n^g'::
t-�' t +' Thick � 1�� in � nai104 � in'23e
e ;vT °.rea;n 1:3 in"2 Swf 547 in"433.
77 in.,4 rT'1.41 in
;a. :_1 /♦ I 33 ln'4 kx.es1.7 in .€.
�.. �' a` J 292 inn4 k`det� 875 in 3I 1
=' k*is for Connection:talcs only "Z•is the Plastic l,iodulus
Flange with = 5.27"
Weld 5/16" - fillet - both-sides
Weld Strength = 0.928*5*5.27*2 = 49 Kips >> 4.1 Kips Okay
14
Supports for header beams: € Shape Properties
.
Shape flame 'Y10A4.f,
Left - W 10x45 1 =t �`
♦, Dept17�10.1 in Z.A e 1r03
Flange Width i 8 02 -,. in Zzz d 54 9 _ .�. .. n',.3
_
• Flange Thick ' 62 in Cum 12ou in46
Maximum Reaction 3,212 lbs. • z�::
. Vvew Thick j 35 in VI*h 19 in^2
Area; 13.3 in`2 Swl23.6 in 4
Overhang = 12" i, I534 rn3 r {2,s in
,...I i, i - °£ iu5248 ir',4 k,',esF112 in'
J i 1 61 in`4 r'deti 1 313 in
Weld 5/16" - Fillet - all around d LI, is for Connection talcs only Z is the Plastic Modulus
The weld in flanges resists bending moment Shop Structural Column
The weld in web resists shear force _�
K - region not welded SEt {
W 10x45 1
Moment at the face of column = V
M = 3.2*12 = 38.4 Kips - in.
12„
3.2 Kips
I
I
Bending Strength
Member: 6 = M*C/I = (38.4*10.1/2)/248 = 0.78 Ksi << 50/1.67 = 29.94 Ksi Okay
Weld Bending Strength = 0.928*5*8.02*10.1 = 376 Kip-in >> 48.6 Kip - In. Okay
Weld length = 2*(10.1-2*(0.62+1.313)) = 12.47"
Weld Shear Strength = 0.928*5*12.47 = 58 Kips >> 3.2 Kips Okay
15
Right - W 10x54
f m
" . 'f' „ : "",, , Shape Floret
,., i .._..w. �fc+� 4�Shap°t.=amp ;y1D�._-
Maximum Reaction 4,052 lbs. •` T i f , ?
a� . pry �a n c �2320 rn 3 t
.: q is _ i
in
6
Da th 131 in L 31 3 in
Flan
Overhang = 12" ; Range Three -.-
�Zc+, 0[1, ".r_'.3Thic- 37
G 'oe k ne � G� 15$ in 2 Ss 366 in''4
Weld 5/16" - Fillet - all around
= :,Yv d i 303 In^4 k'des 1 1/ in ,.1
�' ti ,`. :4 :1 .!1 82 in^4 k'det 1 _12 in
br 3 K` is for Connection calcs only Z is the Plastic Modulus
Moment at the face of column = Shop Structural Column
M = 4.05*12 = 48.6 Kips - in.
5/16"' "
The weld in flanges resists bending moment NT
W 1 Ox54
The weld in web resists shear force
K - region not welded 12"
4.05 Kips
Bending Strength
Member: 6 = M*C/I = (48.6*10.1/2)/303 = 0.81 Ksi << 50/1.67=29.94 Ksi Okay
Weld Bending Strength = 0.928*5*10*10.1 = 469 Kip-in >> 48.6 Kip - In. Okay
Weld length in the web = 2*(10.1-0.615-1.313) = 16.34"
Weld Shear Strength = 0.928*5*16.34 = 76 Kips >> 4.05 Kips Okay
16
•
Stresses on the Track (header beam) due to the door weight
Door weighs 3,000 lbs. Shop Structural Column
Assume 2,000 per support, including dynamic load
5/16" •
W8x18 �I
W10x45
bf= 5.25" tf= 0.33 in. m
tw = 0.23
Load over 6" 4rI Kip
Loaded area = 6*0.23 = 1.38 in.^2
W8x18
Tension
6 = P/A = 2/1.38 = 1.45 ksi << 50/1.67 = 29.94 Ksi Okay
Bending
M = 1*1 = 1 Kip-in. 1 Kit,
Flange Thickness tf= 0.33
I = 1/12 * 6 * 0.33^3 = 0.018in.^4 4".
6 = MC/I = (1 * 0.33/2)/0.018 = 9.17 ksi << 50/1.67 = 29.94 Ksi Okay
Weld Strength of W8x18 to W10x45
Weld 5/16" Fillet, both-sides ] "
Weld length = 2*bf= 2*5.25 = 10.50"
Weld Strength = 0.928*5*10.50 = 49 Kips >> 3.2 Kips
17
Stresses on the Track (header beam) due to the door weight
Door weighs 3,000 lbs. Shop Structural Column
Assume 2,000 per support, including dynamic load
5/16" I"
W8x21
bf= 5.27" tf= 0.4 in. w 10x54
tw = 1/4"
Load over 6" 1 k,P 4► 1 Kcp
Loaded area = 6*0.25 = 1.5 in.^2 W8x2I
Tension
6 = P/A = 2/1.5 = 1.33 ksi << 50/1.67 = 29.94 Ksi Okay
Bending
M = 1*1 = 1 Kip-in.
Flange Thickness tf= 0.4 1 Kip
I = 1/12 * 6 * 0.4^3 = 0.032 in.^4
6 = MC/I = (1 * 0.4/2)/0.032 = 6.25 ksi << 50/1.67 = 29.94 Ksi Okay
Weld Strength of W8x21 to W10x54
Weld 5/16" Fillet, both-sides
Weld length = 2*bf= 2*5.27 = 10.54" F"
Weld Strength = 0.928*5*10.54 = 49 Kips >> 3.2 Kips Okay
18