HomeMy WebLinkAboutCUP 2017-0009; Eco-Friendly Auto Spa; Stem Wall - Cantilevered Retaining Wall, Avenida Encinas Car Wash Eco-Friendly Auto Spa; 2020-03-03ECO-Friendly Auto Spa
CUP 2017•00009/GR2019-0011/DWG 517•2A
10-13214T
Title
Job#: Dsgnr:
Page : 2
Date: 3 MAR 2020
Description ....
Stem Wall
This Wall In File: \\esc_server\projects\10-13000 to 10-13999 projects\10-13214c\retalnpro\4-stem w
RetalnPro (c) 1987-2017, Bulkl 11.17.06.23
LlcellH: KW-06054060 License To: CTE Cantilevered Retaining Wall Code: CBC 2016,ACI 318-14,ACI 530-13
Concrete Stem Rebar Area Details
Bottom Stem
As (based on applied moment) :
(4/3) • As :
200bd/fy : 200(12X6.1875)/60000 :
0.0018bh : 0.0018(12XB):
Vertical Reinforcing
0ln2/ft
Horizontal Reinforcing
0 in2/ft Min Stem T&S Reinf Area 0.000 ln2
0.2475 in2/ft Min Stem T&S Reinf Area per ft of stem Height: 0.000 ln2/ft
0.1728 in2/ft Horizontal Reinforcing Options :
-----------One layer of: Two layers of:
Required Area : 0.1728 in2/ft #4@ 0.00 In #4@ 0.00 in ,----------------,
Provided Area : 0.2067 in2/ft #5@ 0.00 In #5@ 0.00 in
Maximum Area : 0.6706 ln2/ft #6@ 0.00 In #6@ 0.00 In RECORD COPY
I Footing Dimensions & Strengths I Footing Design Results I
Toe Width = 4.25 ft lSll 11111 Di,t. /11:?1
Initial
qf,r /2..-0
Heel Width = 1.00 Factored Pressure = 698 102 psf Date
Total Footing Width 5.25 Mu': Upward = 4,855 6 ft-#
Footing Thickness = 18.00 In Mu': Downward = 2,438 59 ft-#
Mu: Design 2,417 53 ft-#
Key Width 8-00 In Actual 1-Way Shear 4.05 4.05 psi
Key Depth = 12,00 In Allow 1-Way Shear = 40.00 40.00 psi
Key Distance from Toe = 4-25 ft Toe Reinforcing = # 5@ 18.00 In
fc = 2,500 psi Fy = 80,000 psi Heel Reinforcing = # 5@ 18.00 In
Footing Concrete Density = 150.00 pcf Key Reinforcing = None Spec'd
Min. As % = 0.0018 Other Acceptable Sizes & Spacings Cover@ Top 2.00 @ Btm.= 3.00 in Toe: Not req'd: Mu < phi*S*lambda*sqrt(fc)*Sm
Heel: Not req'd: Mu < phl*5*1ambda*sqrt(fc)*Sm
Key: Not req'd: Mu < phl*5*1ambda*sqrt(fc)*Sm
Min footing T&S reinf Area 2.04 ln2
0.39 in2 1ft Min footing T&S relnf Area per foot
If one layer of horizontal bars:
#4@ 6.17In
#5@ 9.57In
#6@ 13.58 In
If two layers of horizontal bars:
#4@12.35 In
#5@19.14 In
#6@27.16 In
I Summary of Overturning & Resisting Forces & Moments
..... OVERTURNING-.•. . ... .RESISTING._ .. Force Distance Moment Force Distance Moment
Item
Heel Active Pressure
Surcharge over Heel
Surcharge Over Toe
Adjacent Footing Load =
Added Lateral Load
Load @ Stem Above Soll =
Total
Resisting/Overturning Ratio
lbs ft ft-#
735.0 2.33 1,715.0
735.0 O.T.M. 1,715.0
Vertical Loads used for Soll Pressure =
= 2.73
1,501 .3 lbs
Vertical component of active lateral soll pressure IS NOT considered in
the calculation of Sliding Resistance.
Vertical component of active lateral soil pressure IS NOT considered In
the calculation of Overturning Resistance.
lbs ft ft-#
Soil Over Heel = 220.0 5.08 1,118.3
Sloped Soll Over Heel =
Surcharge Over Heel =
Adjacent Footing Load =
Axial Dead Load on Stem =
• Axial Live Load on Stem
Soil Over Toe
Surcharge Over Toe =
Stem Welght(s)
Earth @ Stem Transitions=
Footing Weight
Key Weight =
1,181.3
100.0
Vert. Component _= ____ _
2.63
4.58
3,100.8
458.3
Total-= 1,501.3 lbs R.M.• 4,6TT.4
• Axial live load NOT Included In total displayed, or used for overtumlng resistance, but Is Included for soil pressure ca1culation.
ED
MAR 2 0 2020
LAND OE VELOPMENT
ENGINEEf I G
•
ECO-Friendly Auto Spa
CUP 2017-00009/GR2019-0011/DWG 517-2A
10-13214T
Stem Wall
TiUe
Job#:
Description ....
Dsgnr:
This Wall in File: \\esc server\projects\10-13000 to 10-13999 projects\10-13214c\retainpro\4-stem w
Page : 1
Date: 3 MAR 2020
~=~'!:~ ~1:~i.:cr· euud 11·11·05.23 Cantilevered Retaining Wall
License To: CTE
Code: CBC 2016,ACI 318-14,ACI 530-13
l,c.r.ite.r.ia--------•· I Soil Data I
Allow Soil Bearing = 2,500.0 psf
Equivalent Fluid Pressure Method
Active Heel Pressure = 30.0 psf/ft
Retained Height = 5.50 ft
Wall height above soil = 0.00 ft
Slope Behind Wall 0.00
Height of Soil over Toe = 0.00 in
Water height over heel = 0.0 ft
=
Passive Pressure = 250.0 psf/ft
Soil Density, Heel = 120.00 pcf
Soil Density, Toe = 0.00 pcf
Footingl!Soil Friction = 0.300
Soil height to ignore • •
for passive pressure = 12.00 in
.,I Sl!lllu•r•ch•a•rllll!ge_L .. oa•d•s----11111!111-I I Lateral Load Applied to Stem I I Adjacent Footing Load
Surcharge Over Heel = 0.0 psf Lateral Load
Used To Resist Sliding & Overturning ... Height to Top 0.0 #/ft
0.00 ft
0.00 ft Surcharge Over Toe = 0.0 ... Height to Bottom
Used for Sliding & Overturning =
I Axial Load Applied to Stem I
Axial Dead Load =
Axial Live Load =
Axial Load Eccentricity =
I Design Summary
Wall Stability Ratios
Overturning
Sliding =
Total Bearing Load
... resultant ecc.
0.0 lbs
0.0 lbs
0.0 in
• 2.73 OK
1.51 OK
1,501 lbs
7.82 in
Soil Pressure@ Toe = 499 psf OK
Load Type = Wlnd(W)
(Service Level)
Wind on Exposed Stem =
(Service Level)
I Stem Construction
Design Height Above Ftg
Wall Material Above "Hr
Design Method
Thickness
Rebar Size
Rebar Spacing
Rebar Placed at
0.0 psf
• 2nd
Stem OK
ft= 5.50
= Concrete
LRFD
8.00
= # 5
18.00
= Edge
Adjacent Footing Load
FooUng Width
Eccentricity
Wall to Ftg CL Dist
Footing Type
Base Above/Below Soil
at Back of Wall
Poisson's Ratio
Soil Pressure @ Heel = 73 psf OK Design Data
fb/FB + fa/Fa = 0.000
Allowable = 2,500 psf
Soll Pressure Less Than Allowable
ACI Factored @ Toe = 698 psf
ACI Factored@ Heel 102 psf
Footing Shear@ Toe = 4.1 psi OK
Footing Shear @ Heel = 1.6 psi OK
Allowable 75.0 psi
Sliding Cales
Lateral Sliding Force
less 100% Passive Force = -
less 100% Friction Force =
Added Force Req'd =
... .for 1.5 Stability =
735.0 lbs
656.3 lbs
450.4 lbs
0.0 lbs OK
0.0 lbs OK
Total Force @ Section
Service Level
Strength Level
Moment. .. .Actual
Service Level
Strength Level
Moment. .... Allowable
Shear ..... Actual
Service Level
Strength Level
Shear ..... Allowable
Anet (Masonry)
Rebar Depth 'd'
lbs=
lbs =
ft-#=
ft-#=
psi=
psi =
5,470.9
psi= 67.1
in2=
in= 6.19
O.0lbs
0.00 ft
0.00In
0.00 ft
Line Load
0.0 ft
0.300
Masonry Data -------------------------
Vertical component of active lateral soil pressure IS
NOT considered In the calculation of soil bearing
Load Factors ------------
Building Code
Dead Load
Live Load
Earth,H
Wind,W
Seismic, E
CBC 2016,ACI
1.200
1.600
1.600
1.000
1.000
fm
Fs
Solid Grouting
Modular Ratio 'n'
Wall Weight
Short Tenn Factor
Equiv. Solid Thick.
Masonry Block Type
Masonry Design Method
psi=
psi=
=
psf= 100.0
= Medium Weight
= ASD
Concrete Data --------
fc
Fy
psi = 2,000.0
psi = 60,000.0
ECO-Friendly Auto Spa
CUP 2017-00009/GR2019-00111DWG 517-2A
10-13214T
Stem Wall
Title
Job#:
Description ....
Dsgnr:
This Wall In File: \\esc server\projects\10-13000 to 10-13999 projects\10-13214c\retalnpro\4-stem w
RetalnPro (c) 1987-2017, Build 11.17.06.23
License : KW-06054060 License To: CTE
I TUt I
Cantilevered Retaining Wall
Horizontal Deflection at Jop of wan dye to settlement of sou
(Deflection due to wall bending not considered)
Soil Spring Reaction Modulus
Horizontal Deft @ Top of Wall (approximate only)
250.0 pci
0.015 in
The above calculation is not valid if the heel soil bearing pressure exceeds that of the toe.
because the wan would then tend to rotate into the retained soil
Page : 3
Date: 3 MAR 2020
Code: CBC 2016,ACI 318-14,ACI 530-13