Density Of Concrete
Density Of Soil
Depth Of Foundation
Soil Bearing Capacity
Length Of Footing
Width Of Footing
Thickness of Fdtn.
Width Of Pedestal
Length Of Pedestal
Height Of Pedestal
Coefficient Of Friction
Ground Water Table Ht.
1.0 Load Calculation for Footing & Soil:
Self Wt. Of Footing
Weight of Soil
Self Wt. Of Pedestal
Weight of Footing + Soil
2.0 Check Maximum and Minimum Pressure at Footing Base:
Area of Footing
Section Modulus
Section Modulus
Total Vertical Load
3.0 Check for Overturning:
Overturning Moment
Due to External Load
Due to wt. of Pedestal
Due to Self Wt. of Fdn
Due to Wt. of Soil
Total Stabilizing Moment
F.O.S. against Overturning
4.0 Check for Sliding:
Resultant Shear Force
Total Vertical Load
F.O.S. against Sliding
5.0 Load Case Check:
Check Max. & Mini. Pressure at Footing Base:
6.0 Check for Overturning & Sliding:
7.0 Check For Shear
a) Two Way Shear
b) One Way Shear
8.0 Design Of Foundation/Footing:
a) Calculation of Reinforcement at Bottom
b) Calculation of Reinforcement at Top
This presents the design of isolated spread footing using the results from Staad Support Reactions.
Calculation Reference
Reinforced Concrete Footings
How Artificial intelligence (AI) can optimize bridges design? Introduction: Bridges are important pieces of infrastructure that connect communities and…
How AI can help in Highways and Railways design? Introduction: Artificial Intelligence (AI) has emerged as a transformative…
Enhancing Road Modeling Efficiency : Leveraging ChatGPT with Civil3D Introduction: Road modeling is a critical component of civil engineering and…
What are Stirrups and Why we Use Them? Steel reinforcement is an essential component of reinforced concrete, providing tensile…
Why Are Spiral Curves Important? Benefits And Elements Of Spiral Curve 1. Introduction: Spiral curves are an important…
The Main Types Of Tunnels Tunnels have been used for various purposes throughout history, from transportation and infrastructure to…
This website uses cookies.