deSIGN OF POLE FOUNDATION

Isolated Footing Design

Page 1 of 12

Isolated Footing Design (IS 456-2000) Design For Isolated Footing 1 Footing No. -

Group ID -

Length

1

1

0.590 m

Footing No.

Foundation Geometry Width

0.585 m

Footing Reinforcement

Thickness

0.131 m Pedestal Reinforcement

-

Bottom Reinforcement(Mz)

Bottom Reinforcement(Mx)

Top Reinforcement(Mz)

Top Reinforcement(Mx)

Main Steel

Trans Steel

1

Ø6 @ 155 mm c/c

Ø6 @ 160 mm c/c

Ø6 @ 155 mm c/c

Ø6 @ 160 mm c/c

N/A

N/A

Isolated Footing 1

Input Values Footing Geomtery Design Design Type Type : Calculate Calculate Dimension Dimension Footing Footing Thickne Thickness ss (Ft) (Ft) : 100.000 100.000 mm Footin Footing g Lengt Length h - X (Fl) (Fl) : 100.00 100.000 0 mm Footin Footing g Width Width - Z (Fw) (Fw) : 100.00 100.000 0 mm mm Eccentrici Eccentricity ty along along X (Oxd) : 0.000 mm Eccentric Eccentricity ity along along Z (Ozd) (Ozd) : 0.000 mm

Column Dimensions

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 2 of 12

Column Shape : Circular Column Dia : 0.130m

Pedestal Include Pedestal? No Pedestal Shape : N/A  Pedestal Height (Ph) : N/A Pedestal Length - X (Pl) : N/A Pedestal Width - Z (Pw) : N/A

Design Parameters Concrete and Rebar Properties Unit Weight of Concrete : 30.000 kN/m3 Strength of Concrete : 25.000 N/mm2  Yield Strength of Steel : 415.000 N/mm2 Minimum Bar Size : Ø6 Maximum Bar Size : Ø32 Minimum Bar Spacing : 50.000 mm Maximum Bar Spacing : 500.000 mm Pedestal Clear Cover (P, CL) : 50.000 mm Footing Clear Cover (F, CL) : 50.000 mm

Soil Properties Soil Type : UnDrained Unit Weight : 22.000 kN/m3 Soil Bearing Capacity : 100.000 kN/m2 Soil Surcharge : 0.000 kN/m2 Depth of Soil above Footing : 0.000 mm Undrained Shear Strength : 0.000 kN/m2 Min Percentage of Slab : 80.000

Sliding and Overturning Coefficient of Friction : 0.500 Factor of Safety Against Sliding : 1.500 Factor of Safety Against Overturning : 1.500 ------------------------------------------------------

Load Combination/s- Service Stress Level Load Combination Number

Load Combination Title

101

1.000 x DL

102

0.800 x DL

Load Combination/s- Strength Level Load Combination Number

Load Combination Title

201

1.500 x DL

202

0.960 x DL

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 3 of 12

203

1.200 x DL

204

0.900 x DL

 Applied Loads - Service Stress Level LC 101 102

 Axial (kN) 10.309 8.247

Shear X (kN) 0.717 0.574

Shear Z (kN) 0.829 0.663

Moment X (kNm) 0.024 0.019

Moment Z (kNm) 0.027 0.022

 Applied Loads - Strength Level LC 201 202 203 204

 Axial (kN) 15.464 9.897 12.371 9.278

Shear X (kN) 1.075 0.688 0.860 0.645

Shear Z (kN) 1.243 0.796 0.995 0.746

Moment X (kNm) 0.036 0.023 0.029 0.022

Moment Z (kNm) 0.040 0.026 0.032 0.024

------------------------------------------------------

Design Calculations Footing Size Initial Length (Lo) = 0.100 m Initial Width (Wo) = 0.100 m Uplift force due to buoyancy = 0.000 kN Effect due to adhesion = 0.000 kN  Area from initial length and width, A o = L  X W  = 0.010 m 2 o o Min. area required from bearing pressure, A min = P / q  = 0.117 m 2 max

Note: Amin is an initial estimation. P = Critical Factored Axial Load(without self weight/buoyancy/soil). qmax = Respective Factored Bearing Capacity.

Final Footing Size

Length (L2) =

0.590

m

Governing Load Case :

# 101

Width (W2) =

0.585

m

Governing Load Case :

# 101

Depth (D2) =

0.131

m

Governing Load Case :

# 101

 Area (A 2) =

0.345

m2

-----------------------------------------------------Pressures at Four Corner

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 4 of 12

 Area of footing in uplift (A u)

Pressure at corner 1 (q1)

Pressure at corner 2 (q2)

Pressure at corner 3 (q3)

Pressure at corner 4 (q 4)

(kN/m2)

(kN/m2)

(kN/m2)

(kN/m2)

101

28.2800

31.1675

37.8164

34.9288

0.000

101

27.8860

31.8298

39.7104

35.7665

0.000

101

27.8860

31.8298

39.7104

35.7665

0.000

101

27.8860

31.8298

39.7104

35.7665

0.000

Load Case

(m2)

If A u is zero, there is no uplift and no pressure adjustment is necessary. Otherwise, to account for uplift, areas of negative pressure will be set to zero and the pressure will be redistributed to remaining corners. Summary of adjusted Pressures at Four Corner

Load Case

Pressure at corner 1 (q1)

Pressure at corner 2 (q 2)

Pressure at corner 3 (q3)

Pressure at corner 4 (q4)

(kN/m2)

(kN/m2)

(kN/m2)

(kN/m2)

101

28.2800

31.1675

37.8164

34.9288

101

27.8860

31.8298

39.7104

35.7665

101

27.8860

31.8298

39.7104

35.7665

101

27.8860

31.8298

39.7104

35.7665

Details of Out-of-Contact Area (If Any) Governing load case = N/A  Plan area of footing = 0.345 sq.m  Area not in contact with soil = 0.000 sq.m % of total area not in contact = 0.000% -----------------------------------------------------Check For Stability Against Overturning And Sliding Factor of safety against sliding

-

Factor of safety against overturning

Load Case No.

 Along XDirection

 Along ZDirection

 About XDirection

 About ZDirection

101

8.135

7.036

25.733

51.419

102

8.371

7.240

26.481

52.914

Critical Load Case And The Governing Factor Of Safety For Overturning and Sliding X Direction Critical Load Case for Sliding along X-Direction : 101 Governing Disturbing Force :

.717 kN

Governing Restoring Force :

.833 kN

Minimum Sliding Ratio for the Critical Load Case : .135

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 5 of 12

Critical Load Case for Overturning about X-Direction : 101 Governing Overturning Moment : .133 kNm Governing Resisting Moment : Minimum Overturning Ratio for the Critical Load Case :

.412 kNm 5.733

Critical Load Case And The Governing Factor Of Safety For Overturning and Sliding Z Direction Critical Load Case for Sliding along Z-Direction : 101 Governing Disturbing Force : 0.829 kN Governing Restoring Force : 5.833 kN Minimum Sliding Ratio for the Critical Load Case : 7.036 Critical Load Case for Overturning about Z-Direction : 101 Governing Overturning Moment : -0.067 kNm Governing Resisting Moment : 3.441 kNm Minimum Overturning Ratio for the Critical Load Case : 51.419

------------------------------------------------------

Moment Calculation Check Trial Depth against moment (w.r.t. X Axis) Critical Load Case = #201 Effective Depth =

= 0.078 m

Governing moment (Mu) = 1.031 kNm  As Per IS 456 2000 ANNEX G G-1.1C Limiting Factor1 (K umax) = Limiting Factor2 (R umax) =

= 0.479107 = 3444.291146 kN/m2

Limit Moment Of Resistance (Mumax) =

= 12.258488 kNm Mu <= Mumax hence, safe

Check Trial Depth against moment (w.r.t. Z Axis) Critical Load Case = #201 Effective Depth =

= 0.078 m

Governing moment (Mu) = 1.170 kNm  As Per IS 456 2000 ANNEX G G-1.1C Limiting Factor1 (K umax) = Limiting Factor2 (R umax) = Limit Moment Of Resistance (Mumax) =

= 0.479107 = 3444.291146 kN/m2 = 12.363262 kNm Mu <= Mumax hence, safe

------------------------------------------------------

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 6 of 12

Shear Calculation Check Trial Depth for one way shear (Along X Axis) (Shear Plane Parallel to X Axis)

Critical Load Case = #201 DX = 0.078 m Shear Force(S) = 6.144 kN Shear Stress(Tv) = 134.641253 kN/m2 Percentage Of Steel(P t) = 0.2015  As Per IS 456 2000 Clause 40 Table 19 Shear Strength Of Concrete(Tc) = 331.881 kN/m2 Tv< Tc hence, safe

Check Trial Depth for one way shear (Along Z Axis) (Shear Plane Parallel to Z Axis)

Critical Load Case = #201 DZ = 0.078 m Shear Force(S) = 5.857 kN Shear Stress(Tv) = 127.260952 kN/m2 Percentage Of Steel(P t) = 0.2033  As Per IS 456 2000 Clause 40 Table 19

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 7 of 12

Shear Strength Of Concrete(Tc) = 331.881 kN/m2 Tv< Tc hence, safe

Check Trial Depth for two way shear

Critical Load Case = #201 Shear Force(S) = 15.173 kN Shear Stress(Tv) = 603.676 kN/m2  As Per IS 456 2000 Clause 31.6.3.1 K s =

= 0.500

Shear Strength(Tc)=

= 1250.0000 kN/m2

K s x Tc = 625.0000 kN/m2 Tv<= K s x Tc hence, safe ------------------------------------------------------

Reinforcement Calculation Calculation of Maximum Bar Size

 Along X Axis Bar diameter corresponding to max bar size (d b) = 6 mm  As Per IS 456 2000 Clause 26.2.1

Development Length(ld) =  Allowable Length(ldb) =

= 0.242 m = 0.242 m ldb >=ld hence, safe

 Along Z Axis Bar diameter corresponding to max bar size(d b) = 6 mm  As Per IS 456 2000 Clause 26.2.1

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 8 of 12

Development Length(ld) =  Allowable Length(ldb) =

= 0.242 m = 0.242 m ldb >=ld hence, safe

Bottom Reinforcement Design

 Along Z Axis

For moment w.r.t. X Axis (M x)  As Per IS 456 2000 Clause 26.5.2.1 Critical Load Case = #201 Minimum Area of Steel (A stmin) = 92.748 mm2 Calculated Area of Steel (A st) = 37.120 mm2 Provided Area of Steel (A st,Provided) = 92.748 mm2  A stmin<= A st,Provided Steel area is accepted

Selected bar Size (db) = Ø6 Minimum spacing allowed (S min) = 46.000 mm Selected spacing (S) = 161.333 mm Smin <= S <= Smax and selected bar size < selected maximum bar size... The reinforcement is accepted. Based on spacing reinforcement increment; provided reinforcement is Ø6 @ 160.000 mm o.c.

 Along X Axis

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 9 of 12

For moment w.r.t. Z Axis (M z)  As Per IS 456 2000 Clause 26.5.2.1 Critical Load Case = #201 Minimum Area of Steel (A stmin) = 91.962 mm2 Calculated Area of Steel (A st) = 42.204 mm2 Provided Area of Steel (A st,Provided) = 91.962 mm2  A stmin<= A st,Provided Steel area is accepted

Selected bar Size (db) = Ø6 Minimum spacing allowed (S min) = = 50.000 mm Selected spacing (S) = 159.667 mm Smin <= S <= Smax and selected bar size < selected maximum bar size... The reinforcement is accepted. Based on spacing reinforcement increment; provided reinforcement is Ø6 @ 155.000 mm o.c.

Top Reinforcement Design

 Along Z Axis

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 10 of 12

Minimum Area of Steel (A stmin) = 92.748 mm2 Calculated Area of Steel (A st) = 92.748 mm2 Provided Area of Steel (A st,Provided) = 92.748 mm2  A stmin<= A st,Provided Steel area is accepted Governing Moment = 0.110 kNm

Selected bar Size (db) = Ø6 Minimum spacing allowed (S min) = 50.000 mm Selected spacing (S) = 161.333 mm Smin <= S <= Smax and selected bar size < selected maximum bar size... The reinforcement is accepted. Based on spacing reinforcement increment; provided reinforcement is Ø6 @ 160 mm o.c.

 Along X Axis

Minimum Area of Steel (A stmin) = 91.962 mm2 Calculated Area of Steel (A st) = 91.962 mm2 Provided Area of Steel (A st,Provided) = 91.962 mm2  A stmin<= A st,Provided Steel area is accepted Governing Moment = 0.109 kNm

Selected bar Size (db) = Ø6 Minimum spacing allowed (S min) = = 50.000 mm Selected spacing (S) = 159.667 mm Smin <= S <= Smax and selected bar size < selected maximum bar size... The reinforcement is accepted. Based on spacing reinforcement increment; provided reinforcement is

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 11 of 12

Ø6 @ 155 mm o.c.

------------------------------------------------------

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016

Isolated Footing Design

Page 12 of 12

Print Calculation Sheet

file:///C:/Staad.foundation%205.3/CalcXsl/footing.xml

7/30/2016