Structural Design Of Foundations For Structures

Structural Design of Shallow type of foundations, in conjuction with STAAD pro software.

What you'll learn
Structural design of concrete foundations
Practical Structural design aspects
Understanding of Design codes and standards pertaining to structural design
Hands on expereince of preparation of Structural design calculations.
Requirements
Basic civil Engineering/Structural Engineering
Basic understanding of STAAD Pro Software
Description
This course in intended to develop professional skills for Engineers who wish to pursue their carrer in Structural Engineering.This  course is also valuble for practicing structural engineers ,as a refresher and reference.This course teaches you step by step procedure for Structural Design of foundations.How to use data from STAAD pro software, exporting and utilization in Structural design.Interpreting Geotechnical Reports , to extract Soil parameters for Structural design.Get in depth understanding of Design standards and codes relevant to respective technical clauses.Understaing of concepts of Basic Solid Mechanics behind Structural Engineering.Learn Practical aspects of  Structural Design.Examples from Live design Projects.Ready to use downloadable Excel design worsheets are provided as downloadable resources.Finite element approach for design of Raft foundation with STAAD pro software.Local axis convention in STAAD pro for finite elements plates is clearly illustrated and how it different from Local axis of beam element.Importance of direction of forces has been illustraed with diagrams and commentary.Relevant sections from STAAD pro technical reference, have been illustrated for better understanding.Techniques to develop, Stable and Economical Structure.Trouble shooting errors and warnings,  occuring while analysis with STAAD Pro software.Providing Stability criteria for foundations and design procedure to ensure Stability of foundations.Optimization solutions for Structural models.

Overview

Section 1: Course for Structural Design learning

Lecture 1 Overview

Section 2: INTRODUCTION & COURSE OVERVIEW

Lecture 2 Introduction

Lecture 3 Classification of foundations & course over view

Section 3: Basic Engineering Mechanics

Lecture 4 Basic Engineering Mechanics

Section 4: Basic Load combinations for foundation design

Lecture 5 Basic Load combinations for foundation design

Section 5: Generating Load Combinations in STAAD pro for foundation design

Lecture 6 Generating Load Combinations in STAAD pro

Section 6: Interpreting Geotechnical Reports

Lecture 7 Understanding Geotechnical Reports

Section 7: Define Governing Load case for foundation design

Lecture 8 How to export support force results from STAAD model of a Building.

Lecture 9 Identify Governing Load case for foundation design

Lecture 10 Ascertaining Preliminary Footing Size for Isolated foundation

Section 8: Structural Design of Isolated foundation

Lecture 11 Check Size of isolated foundation with respect to Governing Soil Base pressure

Lecture 12 Bending Moment Analysis of Isolated foundation

Lecture 13 Partial factors of safety for design forces as per Limit state Design

Lecture 14 Final bending Moments in Isolated foundation

Lecture 15 Calculation of Reinforcement against Moment (Mz), bending moment about Z axis

Lecture 16 Calculation of Reinforcement against Moment (Mx), bending moment about X axis

Lecture 17 Check Foundation against One Way Shear

Lecture 18 Calculation of Revised design Capacity of foundation

Lecture 19 Check Foundation against Two way shear(Punching shear)

Lecture 20 Stability Checks of Foundation

Lecture 21 Stability of foundation against Overturning Moment about Z axis

Lecture 22 Stability of foundation against Overturning Moment about X axis

Lecture 23 Importance of Pedestal in footings and its design procedure

Lecture 24 Developement Length Calculation for Reinforcement in foundation

Lecture 25 Structural Drawing & Detailing of isolated foundation

Section 9: Structural Design of Sloped (Tapered) Isolated foundation

Lecture 26 Design procedure of Isolated sloped (tapered) foundation

Section 10: Structural Design of Combined foundation

Lecture 27 Calculation of Governing Soil base pressure beneath combined foundation

Lecture 28 Normalizing & Proportioning column axial forces to match soil base pressure

Lecture 29 Draw Bending Moment & Shear Force Diagrams

Lecture 30 Calculation of Reinforcement

Lecture 31 Shear checks for the foundation

Lecture 32 Selecting Effective thickness for ,critical section for One way Shear

Lecture 33 Stability Checks for Foundation : (a) Sliding check

Lecture 34 Stability Checks for Foundation : (a) Overturning check

Lecture 35 Assignment for calculation of Overturning Moment

Lecture 36 Structural Drawing & Reinforcement detailing for combined foundation

Section 11: Structural Design of Strap Foundation

Lecture 37 Importance of Strap foundation

Lecture 38 Proportioning Sizes of footing areas to match with center of gravity of loads

Lecture 39 Bending Moment & shear force calculation in Strap Beam

Lecture 40 Effecive width of T -beam flange and calculation of Reinforcement

Lecture 41 Check for Strap Beam against one way shear

Lecture 42 Check for Strap Beam against Two way shear

Lecture 43 Reinforcement design for footing areas against Sagging bending Moment.

Lecture 44 Structural Drawing and Reinforcement detailing of Strap foundation

Lecture 45 Assignment: Punching Shear Stress

Section 12: Structural Design of isolated Foundations subjected to High Eccentric Loads

Lecture 46 Structural Design of Isolated foundation with Eccentric Loads- Basic Concepts

Lecture 47 Basic Solution to Eliminate Eccentricity in Isoloated founation

Lecture 48 Basic Solution to Eliminate Eccentricity in Isoloated founation: An Example

Lecture 49 Solution for foundations having loads with Eccentricity along single axis

Lecture 50 Solution with Wayne Teng Charts for Dual axis Eccentrically loaded foundations

Lecture 51 Reinforced Concrete Design of foundation- Force Analysis

Lecture 52 Reinforced Concrete Design of foundation- Calculation Of Bending Moments

Lecture 53 Reinforced Concrete Design of foundation- One Way Shear Check

Lecture 54 Reinforced Concrete Design of foundation- Punching Shear Check & Reinforcement

Section 13: Structural Design Of Raft foundation

Lecture 55 Definition of Raft foundation, Plate elements axis convention in STAAD pro

Lecture 56 Understanding configuration of building in STAAD pro

Lecture 57 Creating Basic Parameters for input in STAAD pro soaftware to develop Raft Model

Lecture 58 Preparation of Raft foundation Model in STAAD pro with Finite Elements -part 1

Lecture 59 Preparation of Raft foundation Model in STAAD pro with Finite Elements -part 2

Lecture 60 Preparation of Raft foundation Model in STAAD pro with Finite Elements -part 3

Lecture 61 Applying Loads in Raft foundation model in STAAD

Lecture 62 Assign Thickness of raft foundation & Self Load

Lecture 63 Input Soil Subgrade Modulus in Raft foundation STAAD model to define supports.

Lecture 64 Calculate Max Soil Base pressure in Raft foundation in STAAD & Compare with SBC.

Lecture 65 Calculation of Revised Soil sub grade Modulus

Lecture 66 Recalculate Max Soil Base pressure in Raft foundation STAAD model

Lecture 67 Understanding Soil Base pressur ,contour patterns in STAAD model

Lecture 68 Check Raft foundation against Uplift force from ground water

Lecture 69 Grouping of raft foundation Plate Elements-part 1

Lecture 70 Grouping of raft foundation Plate Elements-part 2

Lecture 71 Grouping of raft foundation Plate Elements-part 3

Lecture 72 Grouping of raft foundation Plate Elements-part 4

Lecture 73 Grouping of raft foundation Plate Elements-part 5

Lecture 74 Trouble shooting ,Errors in raft foundation STAAD model

Lecture 75 Extracting Plate element forces from STAAD

Lecture 76 Averaging Plate Elements Forces of Raft foundation

Lecture 77 Averaging Plate Elements Forces of Raft foundation : Bending Moment (+Mx)

Lecture 78 Averaging Plate Elements Forces of Raft foundation : Bending Moment (-Mx)

Lecture 79 Averaging Plate Elements Forces of Raft foundation : Bending Moment (+My)

Lecture 80 Averaging Plate Elements Forces of Raft foundation : Bending Moment (-My)

Lecture 81 Reinforcement Design for Raft foundation

Lecture 82 Design Shear Capacity Assesment-(I)

Lecture 83 Design Shear Capacity Assesment-(II)

Lecture 84 Revise Raft thickness to Reduce shear Stress

Lecture 85 Re-check of one way shear for Raft foundation

Lecture 86 Re-check Bending Moment values in Raft foundation

Lecture 87 Compensating Design Shear Capacity of Raft foundation

Lecture 88 Punching Shear Check for Raft foundation

Lecture 89 Interconnecting all Columns with Beams

Lecture 90 Forming finite element plate groups of raft foundation

Lecture 91 Selecting appropriate Finite element plates for Extracting force Results in Raft

Lecture 92 Revised Bending Moment & Shear force values in Raft foundation

Lecture 93 Reinforced Concrete Design of Beams in Raft foundation with STAAD pro

Lecture 94 Reinforcement detailing of Beams in Raft foundation

Lecture 95 Structural drawing & Reinforcement Detailing of Raft foundation

Civil engineering students or practicing structural Engineers,Enginnering graduates want to pursue carrer in Structural Engineering & Design