HomeMy WebLinkAboutCT 2017-0004; SIX ON MADISON; STRUCTURAL CALCULATIONS; 2020-01-30. STRUCTURAL CALCULATIONS a HTK
PROJECT: PW511IAN CANOPY FOP 51X ON WtAI2I5ON
DESIGN ASSUMPTIONS:
CONCRETE STRENGTH AT TWENTY EIGHT DAYS:
MASONRY: GRADE "N" CONCRETE BLOCK F' M =
MORTAR: TYPE S 1,800 PSI
GROUT: 2000 PSI
REINFORCING STEEL: A-615 GRADE 40:
GRADE 60:
STRUCTURAL STEEL: A-36
LUMBER: DOUGLAS FIR-LARCH
JOISTS #2
BEAMS AND POSTS #2
STUDS STUD OR BETTER
SEISMIC FORCE: 5195-391 REPORT BY:
STRUCTURAL ENGINEERS,LLP
RECE WED
FEB 0.3 2020
i Amn nVELOPMENT I__I %I 2000 PSI E.ERING
- PSI
No. 68478 #4 AND LESS (U.O.N.)
#5 AND LARGER
MM13F- 5LF WI6I-fl
ROOFING
PLYWOOD
JOISTS
INSUL. & CLG.
MISC.
TOTAL = -
ROOF LIVE LOAD
SLOPING
FLAT -
FLOORING
PLYWOOD
JOISTS
INSUL. & CLG.
MISC.
INTERIOR
BALCONY
EXIT WALKWAY
SOIL PRESSURE: -
WALL DEAD LOAD
EXT.
INTERIOR 10 PSF
EXTERIOR 16 PSF
CANOPY OAt2 O I'5F
40 PSF
60 PSF (U.O.N.)
100 PSF
WIND FORCE: IIO FXP 13 REPORT NO.: -
DESIGN LOADS:
ROOF DEAD LOAD FLOOR DEAD LOAD
SLOPING FLAT INT.
TOTAL =
FLOOR LIVE LOAD
These calculations are limited only to the items included herein, selected by the client and do not imply approval of any other
portion of the structure by this office. These calculations are not valid if altered in any way, or not accompanied by a wet stamp and
signature of the Engineer of Record.
Job No. Designed By Date
I7-72l.' 5J5 I-I-20
14288 Danielson Street • Suite 200 9 Poway, CA 92064-8819 9 (858) 679-8989 • Fax (858) 679-8959
Project Title:
4288 Danielson St, #200 •
STRUCTURAL ENGINEERS, LLP Poway, CA 92064
Project Descr:
Printed: 31 JAN 2020, 2:48PM
Wood Beam File \\Server01\d\JOBFlL'-1\2017JO-1\17-7211\CALCUL-1\pedestrian protecfton.ec6
Software copyright ENERCALC, INC. 1983-2019, Build: 12.19.12.31
DESCRIPTION: Pedestrian Roof Rafters
CODE REFERENCES
Calculations per NDS 2018, IBC 2018, CBC 2019, ASCE 7-16
Load Combination Set: ASCE 7-16
Material Properties
Analysis Method: Allowable Stress Design Fb + 900.0 psi E: Modulus of Elasticity
Load Combination ASCE 7-16 Fb - 900.0 psi Ebend- xx 1,600.0 ksi
Fc - Prll 1,350.0 psi Eminbend - xx 580.0ksi
Wood Species : Douglas Fir - Larch Fc - Perp 625.0 psi
Wood Grade : No.2 Fv 180.0 psi
Ft 575.0 psi Density 32.210pcf
Beam Bracing : Beam is Fully Braced against lateral-torsional buckling
D(O.1) Lr(O.3)
2x6
Span = 4.250 ft
Applied Loads Service loads entered. Load Factors will be applied for calculations.
Beam self weight calculated and added to loads
Uniform Load: D = 0.050, Lr = 0.150 ksf, Tributary Width = 2.0 ft
Maximum Bending Stress Ratio = 0.9841 Maximum Shear Stress Ratio = 0.542 : 1
Section used for this span 2x6 Section used for this span 2x6
= 1,439.65psi = 122.03 psi
= 1,462.50 psi = 225.00 psi
Load Combination +D-i-Lr Load Combination -i-D.i-Lr
Location of maximum on span = 2.118ft Location of maximum on span = 3.795 ft
Span # where maximum occurs = Span # I Span # where maximum occurs = Span # 1
Maximum Deflection Max Downward Transient Deflection 0.067 in Ratio = 766 >=240
Max Upward Transient Deflection 0.000 in Ratio = 0<240
Max Downward Total Deflection 0.089 in Ratio = 572>=180
Max Upward Total Deflection 0.000 in Ratio = 0<180
Overall Maximum Deflections
Load Combination Span Max. "-n Defl Location in Span Load Combination Max. "+" Defi Locaton in Span
40+1r 1 0.0891 2.132 0.0000 0.000
Vertical Reactions Support notation : Far left is #1 Values in KIPS
Load Combination Support 1 Support 2
Overall MAXimum 0.854 0.854
Overall MiNimum 0.638 0.638
D Only 0.216 0.216
+D+Lr 0.854 0.854
+D+0.750Lr 0.695 0.695
+0.60D 0.130 0.130
LrOnly 0.638 0.638
Project T!tle:
14288 Danielson St, #200 ProectID •
Poway, CA 92064
STRUCTURAL ENGINEERS, LLP
Project Descr:
Printed: 31 JAN 2020, 2:51 PM
Wood Beam iie = \\bervenma\.JuuI-lL-itu1 iju-ivi ,-(Li-1\uI\LuuL-1\peaeslnan proiecuon.eco
Software copyright ENERCALC, INC. 1983-2019, Build: 12,19.12.31
DESCRIPTION: Pedestrian Roof Rafter Support Beams
CODE REFERENCES
Calculations per NDS 2018, IBC 2018, CBC 2019, ASCE 7-16
Load Combination Set: ASCE 7-16
Material Properties
Analysis Method: Allowable Stress Design Fb + 900.0 psi E: Modulus of Elasticity
Load Combination ASCE 7-16 Fb - 900.0 psi Ebend- xx 1,600.0 ksi
Fc - Pill 1,350.0 psi Eminbend - xx 580.0 ksi
Wood Species : Douglas Fir - Larch Fc - Perp 625.0 psi
Wood Grade : No.2 Fv 180.0 psi
Ft 575.0 psi Density 32.210pcf
Beam Bracing : Beam is Fully Braced against lateral-torsional buckling
D(0.14875) 0
Lr(0.31875)
a a
4x6
Span = 6.0 ft
Applied Loads Service loads entered. Load Factors will be applied for calculations.
Beam self weight calculated and added to loads
Uniform Load : D = 0.070, Lr = 0.150 ksf, Tributary Width = 2.125 ft
Design OK
= 0.418:1
4x6
= 94.06 psi
= 225.00 psi
+D+Lr
= 5.559 ft
= Span #1
Maximum Bending Stress Ratio =
Section used for this span
Load Combination
Location of maximum on span =
Span # where maximum occurs =
Maximum Deflection
Max Downward Transient Deflection
Max Upward Transient Deflection
Max Downward Total Deflection
Max Upward Total Deflection
Overall Maximum Deflections
0.987: 1 Maximum Shear Stress Ratio
4x6 Section used for this span
1,443.81 psi
1,462 .50 psi
+D+Lr Load Combination
2.990ft Location of maximum on span
Span # 1 Span # where maximum occurs
0.120 in Ratio = 598 >=240
0.000 in Ratio = 0<240
0.178 in Ratio = 404>=180
0.000 in Ratio= 0<180
Load Combination Span Max. "-" Defl Location in Span Load Combination Max. "+" Defi Location in Span
+04.r 1 0.1781 3.010 0.0000 0.000
Vertical Reactions -- -
Support notation: Far left is #1 Values in KIPS
Load Combination Support 1 Support 2
Overall MAXimum 1.415 1.415
Overall MiNimum 0.956 0.956
D Only 0.459 0.459
+D+Lr 1.415 1.415
+D+0.750Lr 1.176 1.176
+0.60D 0.276 0.276
Lr Only 0.956 0.956
dl= 1.50 in.
d2 3.50 in.
A= 5.25 in A2
Dimension Lumber
Capacity Pallowable = 2,629 lb
Unity Check fn I Fn' = 0.326
Member Status OK
Combined Stress Check 0.981
Member Status OK
Deflection Actual = 0.34 in.
Cross-Section Properties
Breadth
Depth
Area
Size Classification
Plate Crushing
. . Combined Stress Analysis Title:
Based on 2018 NDS IPEDESTRIAN PROTECTION WALL STUD DESIGN
-,,J1 HT Date: 1/31/20 z Units: inches, pounds
STRUCTURAL ENGINEERS,LLP
General Member Specifications DVWC Design Values
Member Type I Visually Graded [v Compressive Strength F = 850 psi
Nominal Size 1 2.4 1" Modulus of Elasticity E = 1.40E+06 psi
Spacing 1 24.0 in. ac.
Species Douglas Fir-Larch
Grade Stud V Computed Data
Grade-- For CF Stud V
-
Slenderness Ratios: lel/d1 22.7
Custom Breadth b = 0.00 in. 1e2/d2 26.9
Depth d = 0.00 in. Max Slenderness Ratio: le/d= 26.9
Built up 2xs? (V or N) n Hole Area: AH= 0.00 in 2
Load Duration? ISeven Days(
-
Net Area: A= 5.25 in A2
Operating Temperature IT < 100 F .1"
Cross Section Shape j Rectangle Adjustment Factors on F
Wet Service? No Load Duration Factor CD = 1.25
Incising? j t Size Factor CF = 1.05
Truss Chord No [' Wet Service Factor CM = 1.00
Temperature Factor C1 = 1.00
Incising Factor Ci =
- 1.00
Member Characteristics -
Axial Compression Load P(p!f) 428 lb/ft Adjustment Factors on Fk
Unbraced Length: for 1-1 axis: (weak) '1 = 34.0 in. Load Duration Factor C0 - 1.60
for 2-2 axis: (strong) 12 94.0 in. - Size Factor CF = 1.10
End Conditions: for 1-1 axis: Both ends pinned
M71
Repetitive Member Factor C1 = 1.15
for 2-2 axis: Both ends pinned Temperature Factor C1 =! 1.00
Incising Factor Ci -.
1.00
Lateral Force: -
Load=t 15.0 psf - Member Strength Calcs
Moment= 2,761 in-lb Adjusted Material Strength F* = 1,116 psi
fb 902 psi Adjusted MOE E'= 1.40E+06 psi
Fb= 700 psi KCE 0.3
Fb' = 1,417 psi Euler Stress FCE= 582 psi
FCEX= 582 psi Stress Ratio FCE/Fc* 0.522
f.= 163 psi Stress-strain Curve Factor c=L -
0.8
Fc* = 1,428 psi Column Stability Factor Cp= 0.449
Fce/Fc*= 0.408 Allowable Stress F'= 501 psi
Cp= 0.366 Gross Section Strength P5 2,629 lb
F'= 522 psi Net Section Strength Pn= 5,857 lb
Fcperp=
Pallowable =
625 psi
3,281 lb
Company : Horowitz TayIorhkaki I
Designer : SteveS
Job Number Checked By:
Member NDS Wood Code Checks (By Combination)
[C Member Shaoe UC Max Locifti Shear UC LocFftlDir FcFksil FtFksil Fbi 1... Fb21... Fv'Fksil RB CL CP Ean
fl 1 Ml 2X4 .878 4.667 .612 8 v 1 1231.013 1.5 1.65 .095 12.22 1 .071 3.9-1
2 1 M2 2X6 666 3.542 654 3.542 y 1.491 878 1.3 1.495 095 12.111 1 904 3.9-1
3 1 M3 4X4 .760 6.5 .563 6.5 v .611 1.013 1.5 1.5 .095 5.237 1 .3543.9-1
4 1 M4 2X4 .029 1.127 .003 0 y 1.207 1.013 1.5 1.65 .095 6.293 1__.7 3.9-1
5 1 M5 I 2X4 .120 0 1 .003 0 v 1.207 1.013 1.5 1.65 .095 6.293 1 .7 3.6.3
Joint Reactions (By Combination)
LC Joint Label X Fk1 Y Fk1 Z Fk1 MX [k-ftl MY Fk-ftl MZ Fk-ftl
Eu I I
Eu I I I I Eu • I I I Eu 1
Basic Load Cases
Load Combinations
Description Solve PDeI... SRSS BLC Fact ... BLC Fact ... BLC Fact ... BLC Fact.. .BLC Fact.. .BLC Fact. ..BLC Fact. ..BLC Fact... Iii DL+W Yes
Joint Boundary Conditions
mint I ahel X Fk/inl V Fk/inl Z 1k/m'! X Rot.Fk-ft/radl V Rot.Fk-ft/radl Z Rot.Fk-ft/radi
1 Ni Reaction Reaction I Reaction Reaction -
2 N2 Reaction Reaction Reaction
3 N3 Reaction
4 N4 Reaction
Member Distributed Loads (BLC 2: Wind)
Member Label Direction Start Magnitude[k/ft.deg] End Magnitude[k/ft.degl Start Location[ft.%] End Locationlft.%1
I I Ml I X .03 1 .03 1 0 1 0
Joint Coordinates and Temperatures
Labe! )( rftl V lftl Z Fftl Temo FF1 Detach Fro
i1 N1 0 0 0 0
2 N2 5 0 0 0
3 N3 0 8 0 0
4 N4 5 8 0 0
5 N5 0 6.5 0 0
6 N6 5 6.5 0 0
7 N7 1.5 8 0 0
8 N8 3.5 8 0 0
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Company : Horowitz TayIoshkaki
Designer : SteveS
Job Number: Checked By:______
NDS Wood Section Sets
Label Shane Desian List Tvoe Material Desian Rules A Fin21 1w Fin41 lzz [irt4l J Fin41
1 Stud 2X4 I Rectangular I Column DE Larch TvDical 5:25- .984 5.359 2.877
2 Brace 2X4 Rectangular Column DE Larch Typical 5.25 .984 5.359 2.877
3 Joist -- 2X6 Rectangular Beam DE Larch Typical 8.25 1.547 20.797 5.125
4 Post 4X4 Rectangular Column DF Larch Typical 12.25 12.505 12.505 21.134
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