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Foundation Design using SAFE
AIM: Model the isolated footing provided in week 11 challenge on SAFE. Analyze and design it to verify the size, depth and steel provided as per calculations.INTRODUCTION:CSI SAFE (Slab Analysis by the Finite Element Method) is the best tool for designing concrete slabs and foundations.SAFE provide easiness to engineer…
Vejetha Sajeevan
updated on 12 Dec 2021
AIM: Model the isolated footing provided in week 11 challenge on SAFE. Analyze and design it to verify the size, depth and steel provided as per calculations.
INTRODUCTION:
CSI SAFE (Slab Analysis by the Finite Element Method) is the best tool for designing concrete slabs and foundations.
SAFE provide easiness to engineer towards the safe design of structures with powerful tools like draw, analyze, design and detailing etc.
Laying out models is quick and efficient way with the user-friendly drawing tools, or user can import model layouts from AutoCAD or loading conditions
from other software’s like CSI ETABS and CSI SAP2000.
PROCEDURE:
Open the SAFE Application and select New Model followed by Input Settings, Units was selected as Metric and Code IS 456-2000.
Q2;
A column of size 600x600 carrying an unfactored gravity load (DL+LL) of 1175 KN is to be supported on pile cap, which ultimately transfers load to the pile’s
underneath. Piles of 16 meters length and 500 mm diameter are to be used. Each pile has a load carrying capacity of 200 KN. Model, analyze and design the
pile cap on SAFE to evaluate the following:
Pile group to be used
Depth of pile cap
Longitudinal steel on top and bottom face in both direction
AIM: To Model, analyze and design the pile cap on SAFE to evaluate the following:
-Pile group to be used
-Depth of pile cap
-Longitudinal steel on top and bottom face in both direction
Open the SAFE Application and select New Model followed by Input Settings Units was selected as Metric and Code IS 456-2000
50mm each was provided as cover at top and bottom and Bar size was defined as 16mm
Coordinates was defined next:
Grid spacing in X direction and Y direction was taken as 2.9m and 1.65m respectively.
It’s shown in the below figure too
Material Property data
Click define followed by Material properties
M25 grade of concrete
Modulus of elasticity, E = X 5000 = 25000N
Fe 500 Rebar was added next as shown
Slab properties was defined next as shown
Pile Cap, Column and pile details was defined.
Now slabs are to be added to the model
Draw points
Piles was added and edge distance was modified to 0.3m
The column was created of size 600mm X600mm in the center using the draw option now.
Springs was added next
Piles- Assign – Support Data – point springs
Spring Constant from above calculation is taken as
Dead and Live load of 587.5KN are added next
Load case combination was defined next
After defining the load combination run the analysis.
Maximum displacement was found to be .840, so it’s safe
Also, all the punching shear values are less than 1, So its safe
Joint Reaction Diagram
As all the reaction forces are according to the limit, Its safe
Reinforcement details are added next as shown in both X and Y direction respectively and run the analysis again.
Reinforcement slab design:
Pile Cap foundation design
Result
Completed design of Pile cap foundation using SAFE software
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Read more Projects by Vejetha Sajeevan (56)
Project 1
### Given Data- Floor thickness: - Density of concrete: - Floor finish and mechanical loads: - Live load: - Modulus of elasticity of concrete: - Beam dimensions: \( 500 \text{ mm} \times…
03 Jun 2024 01:44 PM IST
Project 2
Aim - To Model & Design a Proposed PEB Warehouse using STAAD. Pro. Introduction - Here we model and design the PEB warehouse building. As per given description, material data, specification we can design it. PEB - Pre engineered buildings are factory built buildings shipped to site and assembled by bolting together. The…
14 May 2023 12:08 PM IST
Week 12 Challenge
Design of Foundation in STAAD Foundation 1. Isolated Footing Design isolated footing for a column 300 mm x 450 mm, carrying axial load of 1500 kN and Mu = 150 kNm using STAAD. Foundation. Assume that the moment is reversible. The safe bearing capacity of the soil is 200 kN/m2 at a depth of 1 metre from ground level. Use…
09 May 2023 07:59 AM IST
Week 11 Challenge
Analysis & Design of Pipe Rack Structure in STAAD.pro Question 1:- Friction load determination A pipe carrying LNG rests on the shoe having vertical force of 125 kN. Calculate the Friction load on the axis. Also find the friction force, if TEFLON pad is used between shoe and pipe support. Aim:- To calculate…
09 May 2023 06:47 AM IST
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