Design of Reinforced Concrete Structures | EveryEng

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27 min of video

Self-paced Advanced

Design of Reinforced Concrete Structures

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1596 min

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Why enroll

This course is essential for students and professionals who want to build a career in structural design, construction, and consultancy. It provides the technical foundation required to design safe and cost-effective reinforced concrete structures used in residential, commercial, and industrial projects. The subject is highly important for competitive exams (GATE, ESE, State PSC), campus placements, and structural design interviews. It also prepares learners for advanced structural engineering courses and real-world project responsibilities such as drawing reading, reinforcement detailing, and structural analysis.

Mastering RCC design enhances your ability to:

Interpret structural drawings confidently
Perform manual structural calculations
Apply design codes correctly
Understand failure mechanisms
Optimize reinforcement for economy and safety

Your instructor

Engineering Academy

Engineer

Learn Without Limits: Free Engineering Courses

5+ yrs experience·India

Is this course for you?

You should take this if

You work in Oil & Gas or Rail & Transport
You're a Civil & Structural / Quality & Management Standards professional
You have 3+ years of hands-on experience in this field
You prefer self-paced learning you can revisit

You should skip if

You're new to this field with no prior experience
You need a different specialisation outside Civil & Structural
You need live interaction with an instructor

Course details

Design of Reinforced Concrete Structures (RCC) is a core structural engineering subject that focuses on the analysis, design, detailing, and performance evaluation of concrete structures reinforced with steel. Reinforced concrete is the most widely used construction material in residential, commercial, industrial, and infrastructure projects due to its strength, durability, versatility, and cost-effectiveness. This course develops a deep understanding of how structural elements behave under different types of loads and environmental conditions, and how to design them safely and economically according to codal provisions.

The course begins with the fundamental behavior of concrete and reinforcing steel, including stress–strain relationships, failure mechanisms, ductility, and composite action. It then introduces the limit state design philosophy, focusing on safety, serviceability, and durability. Students learn how to calculate loads (dead, live, wind, seismic), apply load combinations, and analyze structural members under bending, shear, torsion, and axial forces.

A major component of the course is the step-by-step design of structural elements such as beams, slabs, columns, footings, and staircases. Emphasis is placed on understanding the structural behavior first, followed by design calculations and reinforcement detailing. Learners gain practical knowledge in preparing bar bending schedules (BBS), interpreting structural drawings, and ensuring site-level implementation accuracy.

The course also covers serviceability requirements, including deflection control, crack width limitation, durability under exposure conditions, and fire resistance. In advanced sections, it may introduce continuous beams, frames, retaining walls, water tanks, and seismic detailing principles, preparing students for real-world structural design challenges.

By the end of the course, learners are capable of performing manual structural design calculations, applying relevant design codes, preparing reinforcement details, and understanding how theoretical concepts translate into on-site construction practices.

Source: NPTEL Youtube Video

Course suitable for

Key topics covered

Properties and stress–strain behavior of concrete and steel
Limit State Design philosophy and safety factors
Load types and standard load combinations
Analysis and design of singly reinforced beams
Analysis and design of doubly reinforced beams
Shear strength and design of shear reinforcement
Torsion in beams (basic design concept)
Development length and anchorage requirements
Design of one-way and two-way slabs
Design of axially loaded and eccentrically loaded columns
Interaction diagrams and biaxial bending in columns
Design of isolated footings and punching shear check
Serviceability checks – deflection and cracking
Bond stress, lap length, and reinforcement detailing rules
Important codal provisions and design assumptions

Course content

The course is readily available, allowing learners to start and complete it at their own pace.

30 lectures26 hr 36 min

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What learners say about this course

Boora Mahesh civil engineer

Mar 14, 2026

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Feb 27, 2026

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Feb 22, 2026

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Feb 15, 2026

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