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Title : Project Title Page: ______Job # : Project Nu Dsgnr: Designer Date: 13 SEP 2012Description....
Enter any descriptive information you wish into this area
This Wall in File: c:\users\leonardo cruz\documents\retainpro 10
RetainPro 10 (c) 1987-2011, Build 10.12.1.4
Cantilevered Retaining Wall Design Code: IBC 2006,ACI 318-05,ACI 530-05License : --Unassigned-License To : UNLICENSED DEMO USER, DEMO EXPIRES IN 69 DAYS
7.00
0.005.00
12.00
2,000.0
30.0
0.0
45.2 psf/ft390.0
Criteria Soil Data
Retained Height = ft
Wall height above soil = ft Soil Friction Angle = deg: 1Slope Behind Wall
Height of Soil over Toe in
Water height over heel = ft
=
=
130.00= pcf
=
Soil Density, Heel
Active Pressure:Ka*Gamma=Passive Pressure:Kp*Ga = psf/ft
Allow Soil Bearing = psf
Soil Density, Toe 130.00 pcf
Footing||Soil Friction = 0.400Vertical component of activesoil pressure used for Overturning Resistance.
Soil height to ignorefor passive pressure = 12.00 in
Rankine Soil Presure calculation
Surcharge Loads Adjacent Footing Load
The above lateral load 1.00
0.0 Lateral Load = 0.0 #/ft
0.0
0.00.00.0
Axial Load Applied to StemWall to Ftg CL Dist = 0.00 ft
Wind on Exposed Stem psf0.0=
Lateral Load Applied to Stem
Surcharge Over Heel = psf Adjacent Footing Load = 0.0 lbs
Axial Dead Load
has been increased
= lbs
Footing Type Line Load
Surcharge Over Toe psfFooting Width = 0.00 ft...Height to Top = 0.00 ftEccentricity = 0.00 in...Height to Bottom = 0.00 ft
NOT Used To Resist Sliding & Overturning
NOT Used for Sliding & Overturning
= 0.0 ft
Axial Live Load =
Base Above/Below Soilby a factor of
lbs
=
Axial Load Eccentricity ==Poisson's Ratio 0.300
at Back of Wall
in
Design Summary
Wall Stability RatiosOverturning = 2.48 OKSliding = 1.53 OK
Total Bearing Load = 2,933 lbs...resultant ecc. = 8.95 in
Soil Pressure @ Toe = 1,300 psf OKSoil Pressure @ Heel = 4 psf OK
Allowable = 2,000 psfSoil Pressure Less Than Allowable
ACI Factored @ Toe = 1,560 psfACI Factored @ Heel = 4 psf
Footing Shear @ Toe = 18.1 psi OK
Footing Shear @ Heel = 18.3 psi OK
Allowable = 82.2 psi
Sliding Calcs (Vertical Component NOT Used)
Lateral Sliding Force = 1,543.7 lbsless 100% Passive Forceless 100% Friction Force
Added Force Req'd
....for 1.5 : 1 Stabili ty =
0.0=
1,173.11,191.7
==
0.0
-lbslbs
lbs OK
lbs OK
-
Masonry Block Type = Normal Weight
Stem Construction Top Stem 2nd
Stem OK Stem OKDesign Height Above Ftg = 3.75ft 0.00
Wall Material Above "Ht" = Masonry Masonry
Thickness = 8.00 8.00Rebar Size = ## 4 5
Rebar Spacing = 32.00 16.00
Rebar Placed at = Edge EdgeDesign Data
fb/FB + fa/Fa = 0.240 0.824
Total Force @ Section = 381.8 1,771.0lbsMoment....Actual = 413.6 4,132.4ft-#
Moment.....Allowable = 1,722.2 5,015.8ft-#
Shear.....Actual = 6.1 28.1psi
Shear.....Allowable = 69.7 69.7psi
LAP SPLICE IF ABOVE = 36.00 45.00in
36.00inHOOK EMBED INTO FTG 6.39=in
Wall Weight = 84.0 84.0
LAP SPLICE IF BELOW =
psf
Rebar Depth 'd' = 5.25in 5.25
Masonry Data
f'm = 1,500 1,500psi
Fy =psi 60,000 60,000
Solid Grouting = Yes Yes
Use Half Stresses = n/a NoModular Ratio 'n' = 21.48 21.48
Equiv. Solid Thick. = 7.60 7.60in
Concrete Dataf'c =psiFy =
Masonry Design Method LRFD=
Load FactorsBuilding Code IBC 2006,ACI
Dead Load 1.200Live Load 1.600
Earth, H 1.600
Wind, W 1.600
Seismic, E 1.000 psi
7/30/2019 1.8 m opción1 (S.I.)
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Use menu item Settings > Printing & Title Block
to set these five lines of information
for your program.
Title : Project Title Page: ______Job # : Project Nu Dsgnr: Designer Date: 13 SEP 2012Description....
Enter any descriptive information you wish into this area
This Wall in File: c:\users\leonardo cruz\documents\retainpro 10
RetainPro 10 (c) 1987-2011, Build 10.12.1.4
Cantilevered Retaining Wall Design Code: IBC 2006,ACI 318-05,ACI 530-05License : --Unassigned-License To : UNLICENSED DEMO USER, DEMO EXPIRES IN 69 DAYS
2.502.00
12.00
13.008.00
=Min. As % 0.0018
Footing Dimensions & Strengths
f'c = 3,000 psi
Toe Width = ftHeel Width =
Key Distance from Toe
Key DepthKey Width = in
= in
= 2.50
Footing Thickness = in
4.50=
ft
Cover @ Top =2.00 in@ Btm.= 3.00 in
Total Footing Width
= 150.00 pcfFooting Concrete DensityFy = 60,000 psi
Footing Design Results
Key:
=
Not req'd, Mu < S * Fr
Factored PressureMu' : UpwardMu' : DownwardMu: Design
Actual 1-Way ShearAllow 1-Way Shear
Toe: #4@ 9.50 in, #5@ 14.50 in, #6@ 20.50 in, #7@ 28.00 in, #8@ 36.75 in, #9@ 46Not req'd, Mu < S * Fr
= None Spec'd
==
=
==
1,5604,4531,1953,259
18.1382.16
Heel:
4199925725
18.2982.16
HeelToe
psfft-#ft-#ft-#
psipsi
Heel Reinforcing = # 4 @ 16.00 in
Other Acceptable Sizes & Spacings
Key Reinforcing
Toe Reinforcing = # 5 @ 16.00 in
Summary of Overturning & Resisting Forces & Moments
.....RESISTING..........OVERTURNING.....Force Distance Moment Distance MomentItem
Forceft-# lbs ftft
Heel Active Pressure = 1,543.7 2.76 4,253.8 Soil Over Heel = 1,213.3 3.83 4,651.1
ft-#lbs
Sloped Soil Over Heel 23.1 4.06 93.7=Surcharge over Heel =
Surcharge Over Heel
=
=
Adjacent Footing Load =Adjacent Footing Load
Axial Dead Load on Stem =
=* Axial Live Load on Stem
Soil Over Toe
Surcharge Over Toe
Surcharge Over Toe
Load @ Stem Above Soil
=
=
=
1,213.3 1.25 406.3=
=
=
Stem Weight(s)
=
588.0 2.83 1,666.0
Earth @ Stem Transitions
=Footing Weight
=
675.0 2.25 1,518.8
Key Weight
=
108.3 3.04 329.5
Added Lateral Load
lbs
=
4,253.8
Vert. Component 421.8 4.50 1,898.2
Total
=
3,354.6 10,563.6* Axial live load NOT included in total displayed, or used for overturningresistance, but is included for soil pressure calculation.
Total = R.M.
=
1,543.7 O.T.M.
=
Resisting/Overturning Ratio = 2.48
Vertical Loads used for Soil Pressure = 2,932.8 lbs
Vertical component of active pressure NOT used for soil pressure
DESIGNER NOTES:
