HomeMy WebLinkAboutCT 04-14A; Trails End; Structural Calculations CWE Walls; 2017-09-27STRUCTURAL CALCULATIONS
PROJECT: J::AA\l.,.S. l:tvD
T'~.P~'( l,~ 'J l!l-<....~ s.
DESIGN ASSUMPTIONS:
CONCRETE STRENGTH AT TWENTY EIGHT DAYS:
MASONRY: GRADE "N" CONCRETE BLOCK F' M =
MORTAR: TYPES 1,800 PSI
GROUT: 2000 PSI
REINFORCING STEEL: A-615
STRUCTURAL STEEL: A-36
LUMBER: DOUGLAS FIR-LARCH
JOISTS
GRADE 40:
GRADE 60:
#2
#2
__ 1.SO"°.___D __ PSI
__ l'""'Y--=-~-o __ PSI
#4 AND LESS (U.0.N.)
#SAND LARGER
BEAMS AND POSTS
STUDS STUD OR BETTER
~HTK
STRUCTURAL ENGINEERS, LLP
SEISMIC FORCE:----REPORT BY: __ G_E::'_-_0_&_0_1 <..£_,'--ltv_C ________ _
WIND FORCE:
DESIGN LOADS:
ROOF DEADLOAD
SLOPING
ROOFING
PLYWOOD
JOISTS
INSUL. & CLG.
MISC.
TOTAL=
ROOF LIVE LOAD
SLOPING=
FLAT=
REPORT NO.: (p~i ,S-l}-'::,c... SOIL
FLOOR DEAD LOAD
INT. EXT.
FLOORING
PLYWOOD
JOISTS -TOTAL=
FLOOR LIVE LOAD
INTERIOR 40 PSF
BALCONY 60 PSF (U.O.N.)
EXIT WALKWAY ~00 PSF
PRESSURE: l ~'--vb
WALL DEAD LOAD
INTERIOR
EXTERIOR
lOPSF
16PSF
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 anyway, or not accompanied by a
wet stamp and signature of the Engineer of Record.
•I ~-;~•N\!!!!111· fI':>• ...... l•~•sig1111ne111d B•y _________ .._.l•D~ .. t[•?.,•
7
1111!11/ l•)-1
S1n Dle11:o • 14288 Danielson Street, Suite If 200, Poway, CA 92064, (8581 679-8989, Fa• (858) 679-8959
Us~· menu item Settings> Printing & TIUG Block
to set these five lines of information
for your program.
Title Site Wall (6' max)
Job # : -Dsgnr:
.Description .•..
This Wall.in File: \\server01\d\_englneering_files\bs\calculations\retain pro\trails end.rpx
Page: 1
Date: 29 SEP 2017
RetalnPro (c} 1987•2016, Bulld 11.16.11.12 License : KW--O&OS6849 Cantilevered Retaining Wall
License To : HTK STRUCTURAL ENGINEERS Code: CBC 2010,ACI 318-08,ACI 530-08
I Criteria I j Soil Data •
=
AIIOV'( Soil Bearing = 1,500.0 psf
Equivalent Fluid Pressure Method
Active Heel Pressure = 38:0 psf/ft
Retained Height = 6.00 ft ' Wail height above soil = 0.50 ft
Slope Behind Wall = 0.00
HelghtofSoli overToe = 6.00 In Passive Pressure = 250.0 psf/ft
Water height over heel = 0.0ft Soil Density, Heel = 110.00 pcf
Soil"Oensity, Toe = 0.00 pcf
FootinglfSoil Friction = 0.350
Soil height to ignore
for passive pressure = 30.00 in
.,I s,.u.r""'c•h•ar111g"'e•L•o•a•d•s-----.. R I Lateral Load Applied to Stem I I Adjacent Footing Load
Surcharge Over Heel = o.o psi
NOT Used To Resist Sliding & Overturning
Surcharge.Over Toe = o._O psf ,
NOT Used for Sliding & Overturning
I Axial Load Applied to Stem I
Axial Dead Load =
Axial Live Load =
Axial Load Eccantriclty =
I Design Summary
Wall Stability Ratios
Overturning
Sliding
Total Bearing Load
... resultant ecc.
=
=
=
=
0.0 lbs o.o lbs
0.0 in
• 3.83 OK
1.53 OK
3,639 lbs
5.71 in
Soll Pressure@ Toe = 1,393 psi OK
Soil Pressure@ Heel = 286 psf OK
Allowable . = 1.500 psf
Soil Pressure less Than Allowable
ACI Factored@Toe = 1,950 psi
ACI factored @ Heel = 401 psi
Footing Shear@ Toe = 2.7 psi OK
Footing Shear@ Heel 1.9 psi OK
Allowable = 75.0 psi
Sliding Cales
Lateral Sliding Force =
less 67 1% ·Passive Force = -
less 100% Friction Force =
Added Force Req'd =
••• .for 1.5 Stability =
931.0 lbs
148.9 lbs
1,273.6 lbs
0.0 lbs OK
0.0 lbs OK
Lateral Load =
..• Height to To~ =
... Height to Bottom =
0.0#/ft
0.00 ft
0.00 ft
_Adjac~nt Footing load
Footing Width
Eccentricity
Load Type Wall lo Ftg CL Dist
Footing Type = Wlnd(W)
Wind on Exposed Stem =
(Service Level)
Service level
Strength Level
Shear ..... Allowabie
Anet (Masonry)
Rebar Depth 'd'
(Service Level) Base AbOve/Below Soil
O;O psf at Back of Wall
Poisson's Ratio
• 2nd
Stem OK
ft= 2.00
= Masonry
=
=
=
=
=
psi=
psi=
psi=
in2 =
In=
ASD
8.00
# 4
24.00
Edga
0.502 0.955
304.0 684.0
405.3 1,368.0
808.1 1,431.8
3.3 7.5
44.7 45.2
91.50 91.50
5.2.5 5.25
LRFD
=
=
=
=
=
=
o.o lbs
0.00 ft
0.00 in
0.00ft
Line Load
0.0ft
0.300
•
MasonryOata ------------------------
Vertical component of active lateral solt·pressure IS
NOT considered in the calculation of soil bearing
Load Factors~· -----------~
BuUding Code
Dead Load
Uva load
Earth,H
Wind, W
Seismic, E
CBC 201 O,ACI
1.200
1.600
1.600
1.000
1.000
rm
Fs
Solid Grouting
Modular Ratio 'n'
Wall Weight
Short Term Factor
Equiv. Solid Thick.
Masonry Block Type
Masonry Design Method
1,500 1,500 psi=
psi= 20,000 24,000
= Yes
= 21.48
psi= 78.0
1.000
In= 7.60
= Medium Weight
= ASD
Yes
21.48
78.0
1.000
7.60
Concrete Data ------------------------re
Fy
psi=
psi=
Use·menu Item Settings > Printing & Title Block
to set these five llneS·of Information
Title Site \'fall (6' max)
Job # : Dsgnr.
Page: 2
Dale: 29 SEP 2017
for your program. Description ....
This Wall In FRe: \\server01\d\englneerlng files\bs\calculations\retaln pro\tralls end.rpx
RetalnPro (c) 1987-2016, ·Build 11.16.11.12
License: KW,06056849 Cantilevered Retaining Wall License To: HTK STRUCTURAL ENGINEERS Code: CBC 2010,ACl-318-08,ACI 530-08
I Footing Dimensions & Strengths
Toe Width = 0.17 fl
Heel Width = 4.17
Total Footlng Width = 4.33
Fooling Thickness = 12.00 In
Key Width = 12.00 In
Key Depth = 16.00 in
Key Distance from Toe = 3.33 fl
fc = 2,500 psi Fy =
Footing Concrete Densit)I = 60,000 psi
145.00pcf
Min.As% = 0.0018
Cover@Top 2.00 @Btm.= 3.00 in
Summa
• Footing Design Results I
!2! !!!!m Factored Pressure = 1,950 401 psi
Mu': Upward = 27 5,010 ft-#
Mu': Downward = 10 6,481 ft-#
Mu: Design = 17 1,471 ft-#
Actual 1-Way Shear = 2.72 1.86 psi
Allow 1-Way Shear = 75.00 75.00 psi
Toe Reinforcing = # 5@ 16.00 In
Heel Reinforcing = None Spec'd
Key Reinforcing = None Spec'd
Olher Acceptable Sizes & Spacings
Toe: Not req'd: Mu< phi•s•1ambda•sqrt(fc)•sm
Heel: Not req'd: Mu < ph1"5"1ambda"sqrt(fc)"Sm
Key: #4@9.26 In, #5@ 14.35 in, #6@ 18 In, #7@ 18 in, #8@ 18
Min footing T&S reinf Area
Min footing T&S rein! Area per foot
If one layer of horizontal bars:
#4@ 9.261n
#5@ 14.35 .in
#6@20.37in
Forces & Moments
1.12 ln2
0.26 ln2 1ft
If two layers of horizontal bars:
#4@18.52 in
#5@28.701n
#6@40.741n
..... OVERTURNING ••.•• • ••.. RESISTING ..... Force Distance Moment Force Distance Moment Item lbs fl ft-#
Heel Active Pressure = 931.0 2.33 2,172.3
Surcharge over Heel =
Surcharge Over Toe =
Adjacent Footing Load =
Added Lateral Load =
Load @ Stem Above Soil =
=
Total 931.0 O.T.M. 2,172.3
= =
Resisting/Overturning Ratio
Vertical Loads used for .Soll Pressure =
= 3.83
3,639.0 lbs
lbs ft ft-#
Soil Over Heel = 2,310.2 2.58 5,969.2
Sloped Soil Over Heel =
Surcharge Over.Heel =
Adjacent Footing load =
Axial Dead Load on Stem =
• Axial Live Load on Stem =
Soll Over Toe = 0.08
Surcharge Over Toe =
Siem Welghl(s) = 507.0 0.50 253.7
Earth @· Stem Transitions=
Footing Weight = 628.4 2.17 1,361.8
Key Weight = 193.3 3.83 740,5
Vert. Component =
Total= 3,639.0 lbs R.M.= 8,325.2
Vertical component of active lateral soil pressure IS NOT considered in
the calculation of Slidin'g Resistance.
Vertical component of active lateral soil pressure IS NOT considered in
the calculation of Overtumi~g Resistance.
I Tilt I
• Axial live load NOT Included in total _displayedi or used for overturning resistance, ·but is included for soil pressure ca culation.
Horizontal Deflection at Top of Wall due to settlement of soil
(DeHectlon due to wall bending not considered)
Soll Spring Reaction Modulus
Horizontal Defi.@ Top of Wall (approximate only)
250.0 pc!
0.058 In
The above calculallon is not valid if the heel soil bearing pressure exceeds that of the toe,
because the wall would then tend to rotate Into the retained soil.
Use menu Item Settings > Printing & Title Block
to set these five lines Of Information
for your program.
Title Site Wall (6' max) PL 2:1
Job#: Ds!iw'= • Description ••••
This Wall in File: \\server01\d\engineering_flles\bs\calculations\retaln pro\trails ~nd.rpx
RetalnPro(c) 1987·2016, Build 11.16,11.12
Page: 1
Date: 29 SEP 2017
ucense: KW-060S6849 Cantilevered Retaining Wall License To: HTK STRUCTURAL ENGINEERS Code: CBC 2010,ACI 316-0B;ACI 530-06
J Criteria • I Soil Data •
Allow Soll Bearing = 1,500.0 psi
Equivalent Fluid Pressure Method
Active Heel Pressure = 55.0 psi/ft
Retained Height = 6.00ft
Wall height above soil = 0.50 ft
Slope Behind Wall = 0.00 =
Height of Soll over Toe = 6.001n Passive Pressure = 250.0 psf/ft
Water height over heel = 0.0 ft Soil P~nsity, Heel = 110.00 pcf
Soil Density, To·e = 0.00 pcl
FootingUSoil Friction = 0.350
Soil height to ignore
for passive pressure = 30;00 In
.,J S!!'u·rc-ha.r~g!"e•L'!'!oa.d'!'s ______ ,.I I Lateral Load Applied·to Stem ' I I Adjacent Footing Load
Surcharge Over Heel = 0.0 psi • NOT Used To Resist Sliding & Overturning
Surcharge Over Toe = 0.0 psf
NOT Used for Sliding & Overturning I Axial. Load Applied to Stem I
Axial Dead Load =
Axial UVe Load =
Axial Load Eccentricity =
I ·Design Summary
Wall Stability Ratios
Overturning
Sliding
Total Bearing Load
••• resultant eec.
=
=
= =
O.Olbs
0.0 lbs
0.0 In
3.64 OK
1.52 OK
4;285 lbs
6.74 in
•
Soil Pressure·@Toe = 1,434 psf OK
Soil Pressure @ Heel = 279 psf OK
Allowable = 1,500 psf
Soil Pressure Less Than Allowable
AC! Factored @Toe = 2,008 psf
ACI Factored @Heel = 391 psi
Fooling Shear@ Toe = 2.8 psi OK
Footing Shear @ Heer 3.6 psi OK
, Allowable = 75.0 psi
• Sliding Cales
Lateral Sliding Force :;;
less 67 % Passive Force = •
less 100% Friction Force = •
Added Force Req'd =
.... for 1.5 Stability =
1,347.5 lbs
551.9 lbs
1,499.6 lbs
0.0 lbs OK
0.0 lbs OK
Vertical component of active,lateral soil.pressure JS
NOT considered in the calculStion of Soll bearln9
Lateral Load = 0.0#/ft
... Height to To~ = 0.00 ft
... Height to Bottom = 0.00 ft
Load Type = Wind (W)
(Service Level)
Wind on Exposed Stem=
(Service Level)
I Stem Construction
Design Height Above Ft£
Wall Material Above ·Ht"
Design Method
Thickness.
Rebar Size
R~bar Spacing
Rebar Placed at
0.0 psi
• 2nd
Stem OK ft= 2.00
= Masonry
= ASD
= 8.00
= # 4
= 24.00
=
Adjacent Footing Load
Footing Width
Eccentricity
Wall lo Ftg CL Dist
Footing Type
Base Above/Below So.II
at Back of Wall
Poisson's Ratio
Bottom
Stem OK
0.00
Masonry
ASD
8.00
# 4
8.00
LRFO
=
=
=
=
=
0.0 lbs
0.00 ft
O.OO!n
0.00 ft une L~ad
0.0ft
0.300
Edge Edge
Design Data -------------~, ------------
fb/FB + la/Fa = 0.726 0.715
Total Force @ Section
Service Level lbs ;:
Strength Level lbs=
Moment.· .•• ActuaJ
Service Level ft-#:::
Strength Level ft-#=
Moment •.•. Allowable ft-#=
Service Level
Strength Level
Shear ..... Allowable
Anet (Masonry)
Rebar Depth 'd'
psi=
psi=
psi=
in2=
in=
440.0 990.0
586.7 1,980.0
808.1 2,770.5
' 4.8 10.8
44.7 45.2
91.50 91.50
5.25 5.25
MasonryData -------------------------rm
Fs
Solid Grouting
Moclular RatiO 'n'
Wall Weight
psi=
psi=
=
=
1,500
20,000
Yes
21.48
psi= 78.0
1,500
24,000
Yes
21.48
Load Factors------------Short Term Factor
Equiv. Solid Thick.
Masonry Block Type
Masonry Design Method
= 1.000
78.0
1.000
7'.60 Building Code
Dead Load
Uve Load
Earth, H
Wind,W
Seismic,E
CBC 2010,ACI
1.200
1.600
1.600
1.000
1.000
in= 7.60
= Medium Weight = ASD
ConcreteData ----~~------------------re
Fy
psi=
psi=
'Use menu item Settings > Printing & Title Block
to Set these five lines of Information
Title Site Wall (6' max) PL 2:1 1 Page: 2
Job # : Dsgnr: Date: 29 SEP 2017
fOr your program. Description ••••
This Wall in File: \\server01\d\englneering ftles\bs\calculations\retain pro\trails end.rpx
RetalnPro (c) 1987°2016, Build 11,16.11,12
License : KW.06056849 License To : HTK STRUCTURAL ENGINEERS Cantilevered Retaining Wall Code: CBC 201~,ACI 318-08,ACI 530-08
I Footing Dimensions & Strengths
Toe Width
Heel Width
Total Footing Width
= = =
0.17 ft
4.83
5.00
Footing Thickness = 12.00 In
Key Width = 12.00 in
Key Depth = 25.00 in
Key Distance from Toe = 4.00 ft
fc = 2,500 psi Fy = 60,000 psi
Footing Concrete Density = 145.00 pct
Min. As% = 0.0018
Cover @Top 2.00 @ Btm.; 3.00 In
• Footing Design Results
Toe
Factored Pressure = 2,008
Mu' : Upward = 28
Mu' : Downward = 10
Mu: Design = 18
Actual 1-Way Shear = 2.81
Allow 1-Way Shear = 75.00
Toe Reinforcing = # 4 @ 8.00 In
Heel Reinforcing = None Spec'd
Key Reinforcing = # 4 @ 8.00 in
Other Acceptable Sizes & Spacings
• Heel
391 psi
7,294 ft-#
9,059 ft-#
1,765 ft-#
3.61 psi
75.00 psi
Toe: Not req'd: Mu< phl"S"lambda"sqrt(fc)'Sm
Heel: Not req'd: Mu < phr5*1ambda*sqrt(fc)*Sm
Key: #4@9.26 In, #5@14.35 in, #6@ 18 in, #7@ 18 In, #8@ 18
Min footing T&S rein! Area 1.30 ln2
Min footing T&S rein! Area per foot 0.26 ln2 1ft
If one layer of horizontal bars: If two layers of hcirizontal bars:
#4@ 9.26 In #4@ 18.52 in
#5@14.35 In #5@28.70 In
#6@20.37 In #6@40.74 in
I Summary of Overturning & Resisting Forces & Moments •
..... OVERTURNING..... .. ... RESISTING .....
Force Distance Moment Force Distance Moment
Item lbs ft ft-# lbs ft ft-#
Heel Active Pressure = 1,347.5 2.33 3,144.2 Soil Over Heel = 2,750.4 2.92 8,024.0
Surcharg·e over Heel = Sloped Soll Over Heel =
Surcharge Over Toe = su·rcharge Over Heel =
Adjacent Footing Load . = Adjacent ·Footing Load =
Added Lateral Load = Axial Dead Load on Stem =
Load @ Stem Above Soll = • Axial Live Load on Stem =
;;:: Soil Over Toe = 0.08
Total 1,347.5 O.T.M. 3,144.2
=
Resisting/Overturning Ratio
VerticarLoads used fOr Soll Pressure=
=
= 3.64
4,284.7 lbs
Surcharge Over Toe ;:
Stem Weight(s) =
Earth @ Stem Transitions=
Footing Weight =
Key Weight =
507.0
725.1
302.1
Vert. Component -=---~-
0.50
2.50
4.50
253.7
1,813.2
1,359.4
Total = 4,284.7 lbs R.M.= 11,450.2
Vertical component of active lateral soil pres_sµre IS NOT consid~r~ in
the calculatlon of Sliding Resistance.
Vertical component of active lateral soil pressure IS NOT considered in
the calculation of Overturning Resistance.
I Tilt I
• Axial live load NOT included in total displayed1 or used for overturning resistance, but is included for soil pressure ca1culation.
Horizontal Deflection at Top of Wall due to settlement of soil
(Deflection due to wall bending not considered)
Soil Spring Reaction Modulus
Ho.rizontal Defl@ Top of Wall (approximate only)
250.0 pci
0.052 In
The above calculation Is not val\d·if,the heel soil·bearing pressure exceeds that of the toe,
because the wall.would then tend to rotate into the retained soil.