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Design Principles of Concrete Structures - I
Highest Rated
Rating: 4.6 out of 5(18 ratings)
138 students

Design Principles of Concrete Structures - I

Basics , Derivation , Philosophy and Examples for Concrete members Design
Created byMunawar Hussain
Last updated 8/2025
English

What you'll learn

  • Design Principles of Concrete Structures
  • Introduction to Concrete, Rebar (Reinforcement) , Merits and Demerits, Design Loads, Load Combinations , Mechanism of Load Transfer, Specification & Codes,
  • Ultimate Strength Design (USD)/LRFD Method, Shrinkage & Creep , Testing Criteria Concrete, Study of Flexural Behavior (Derivation) , Minimum Depth Deflection
  • Whitney's Equivalent Stress block Diagram, Under Reinforced & Over Reinforced (Derivation) , Tension Controlled , Compression Controlled and Transition Section

Course content

5 sections11 lectures2h 38m total length
  • Introduction - Concrete20:39

    Design Principles of Concrete Structures

    •Text Book

    •Concrete Structures (Part-I) by Zahid Ahmad Siddiqi

    •References

    • Reinforced Concrete (6th Edition) by Edward G. Nawy

    •Design of Concrete Structures (14th Edition) by Arthur H. Nilson, David Darwin & Charles W. Dolan

    • Building Code Requirements for Structural Concrete

    (ACI 318-19)

  • Design Loads & Load Combinations (LRFD Method)22:20
  • Shrinkage & Creep ,Testing Criteria Concrete24:22

Requirements

  • Basic knowledge of materials, Structural Analysis

Description

Learn to become expert

In this course you will learn

Lecture - I - Introduction of Concrete, Rebar (Reinforcement) , Merits and Demerits of Concrete Construction

Lecture - 2 - Design Loads, Load Combinations , Mechanism of Load Transfer,  Specification & Codes, Ultimate Strength Design (USD)/LRFD Method

Lecture - 3 - Shrinkage & Creep , Testing Criteria Concrete

Lecture - 4 - Study of Flexural Behavior (Derivation) , Minimum Depth for Deflection Control ACI 318

Lecture - 5 - Study of Flexural Behavior (Derivation) , Whitney's Equivalent Stress block Diagram

Lecture - 6 - Under Reinforced & Over Reinforced (Derivation) , Tension Controlled , Compression Controlled and Transition Sections

Lecture - 7 - Capacity Analysis & Rebar Guidelines

Lecture - 8 - Example and Assignment


{ Learn to become expert

In this course you will learn

Lecture - I - Introduction of Concrete, Rebar (Reinforcement) , Merits and Demerits of Concrete Construction

Lecture - 2 - Design Loads, Load Combinations , Mechanism of Load Transfer,  Specification & Codes, Ultimate Strength Design (USD)/LRFD Method

Lecture - 3 - Shrinkage & Creep , Testing Criteria Concrete

Lecture - 4 - Study of Flexural Behavior (Derivation) , Minimum Depth for Deflection Control ACI 318

Lecture - 5 - Study of Flexural Behavior (Derivation) , Whitney's Equivalent Stress block Diagram

Lecture - 6 - Under Reinforced & Over Reinforced (Derivation) , Tension Controlled , Compression Controlled and Transition Sections

Lecture - 7 - Capacity Analysis & Rebar Guidelines

Lecture - 8 - Example and Assignment } - Repeated the same { Learn to become expert

In this course you will learn

Lecture - I - Introduction of Concrete, Rebar (Reinforcement) , Merits and Demerits of Concrete Construction

Lecture - 2 - Design Loads, Load Combinations , Mechanism of Load Transfer,  Specification & Codes, Ultimate Strength Design (USD)/LRFD Method

Lecture - 3 - Shrinkage & Creep , Testing Criteria Concrete

Lecture - 4 - Study of Flexural Behavior (Derivation) , Minimum Depth for Deflection Control ACI 318

Lecture - 5 - Study of Flexural Behavior (Derivation) , Whitney's Equivalent Stress block Diagram

Lecture - 6 - Under Reinforced & Over Reinforced (Derivation) , Tension Controlled , Compression Controlled and Transition Sections

Lecture - 7 - Capacity Analysis & Rebar Guidelines

Lecture - 8 - Example and Assignment } - Repeated the same

Who this course is for:

  • Civil Engineers, Technologist, Architects, Designers, Construction