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Reinforced Cement Concrete Design

A comprehensive course on Reinforced cement concrete design using practical examples. This course is highly suited for beginners

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Syllabus

This course is full of best-in-class content by leading faculty and industry experts in the form of videos and projects

Course Overview

This course primarily talks about reinforced concrete structural elements and structural systems.
The basics of analyzing an RCC frame using analysis software like STAAD.Pro and designing the component elements of the frame with the help of MS Excel (or any other spreadsheet program) will be covered in this course.
These skills are basic requirements for a budding structural engineer and design firms continuously look for talents who possess these fundamental skillsets.
The fundamentals covered in the course help the students to understand complex topics like the non-linear and inelastic responses of RCC structures easier.

Course Syllabus

On a daily basis we talk to companies in the likes of Tata Elxsi and Mahindra to fine tune our curriculum.

Week 01 - Structural systems, Properties of concrete & Properties of reinforcing steel

Objectives of structural design
Example of structural systems (different types of floor systems, vertical and lateral framing systems etc.)
Design codes
Basics of concrete mix proportions and unit weight.
Unconfined compressive strength of concrete (cylinder & cube)
Stress-strain curve for concrete and its characteristics modified Hognestad parabola)
Concrete stress-strain curve per IS 456:2000
Confined strength of concrete (overview)
Characteristic strength of concrete, the tensile strength of concrete
Shrinkage & creep
Properties of steel (stress v/s strain, Fe250/Fe415/Fe500)

Week 02 - Design Philosophies & Beam in Flexure (analysis)

Preview into WSM, Strength Design (ULM) and Limit State Design (LSD)
Two Limit States (serviceability & strength)
Characteristic loads and load safety factor
Design material strength
Building frame example [Load distribution from slab – beam-column – foundation]
Slabs in building
One-way slabs (behaviour and structural analysis)
Theory of flexure
Concept of the neutral axis
Failure modes of RC section (under-reinforced, over-reinforced & balanced section)
Moment of resistance

Week 03 - One-way slabs & Two-way slabs

Structural analysis and design of one-way slab
Reinforcement detailing for one-way slabs
Introduction to two-way slabs
Difference between one-way & two-way slabs
Analysis of two-way slabs
Effective span for two-way slabs
Design example (two-way slabs)
Reinforcement detailing in two-way slabs

Week 04 - Beams in Flexure

Introduction to reinforced concrete beams
Moment of resistance
Concept of flanged beams in buildings
Analysis of under-reinforced rectangular beams
Analysis of over-reinforced rectangular beams
Flanged beams (effective width and other
characteristics)
Analysis of flanged beams in flexure
Limiting percentage of steel in beams

Week 05 - Beams in Flexure

Analysis of T-Beam (design example)
Concept of doubly reinforced rectangular beam
Analysis of doubly reinforced beam

Week 06 - Beams in Flexure, Bond, development length and anchorage length

Structural analysis of beam in the building frame
Design of singly reinforced beam in the building frame
Reinforcement detailing of beams
Bond strength of concrete
Development length and anchorage length

Week 07 - Shear

Principal stress in beams
Modes of cracking
Shear transfer mechanism
Effect of reinforcement on shear failure
Nominal shear stress in the beam
Critical section for one-way shear
Shear strength without shear reinforcement
Shear strength of the slab
Shear strength with shear reinforcement
Reinforcement detailing of shear reinforcement
Design example

Week 08 - Torsion & Deep Beams

Torsion in structural members (compatibility torsion and equilibrium torsion)
Torsional reinforcement provisions per IS code
Torsional reinforcement detailing
Design example
Introduction to deep beams and design example

Week 09 - Columns

Tied columns and spiral column
Loading on columns
The effective length of the column (braced & unbraced length)
Effective length per IS 456
Slender and short columns, slenderness limits
Reinforcement detailing of columns
The design strength of short column under pure axial load

Week 10 - Columns

Short column subjected to axial load and uniaxial moment
Strain profile under axial load and varying eccentricities
Introduction to P-M interaction curve
Possible modes of failure of column
Generating P-M interaction curve (equations and design example)
Design of column subjected to axial load and uniaxial moment
Design of column subjected to axial load and biaxial moment
Use of design aids (SP 16) for column design

Week 11 - Foundations

Types of foundation (isolated, raft, combined, wall)
Bearing pressure under footing (due to axial load, axial load and uniaxial moment)
Design considerations (Bearing pressure, one-way shear, two-way shear and flexure)
Transfer of forces at column base: Bearing of concrete
Reinforcement detailing
Design example: Isolated, concentrically loaded footing
Design example: Isolated, eccentrically loaded footing

Week 12 - Foundations

Combined foundation (introduction and need for combined foundation)
Analysis of combined foundation
Design example: Combined foundation

Our courses have been designed by industry experts to help students achieve their dream careers

Industry Projects

Our projects are designed by experts in the industry to reflect industry standards. By working through our projects, Learners will gain a practical understanding of what they will take on at a larger-scale in the industry. In total, there are 2 Projects that are available in this program.

Analysis and design of slab and beam system using IS 456-2000

In this project, the students will be asked to design and analyse a slab and beam using IS 456-2000. They will also design and detail the reinforcement in the slab and beam.

Design of beams and slabs for shear and Design of columns for compression and uniaxial bending using SP16 charts

In this project, the same framing layout of project 1 is considered. It includes the design of beams and slabs for shear, the design of columns for compression and uniaxial bending using SP16 charts, and the design of the foundation for the same column subjected to compression and moment.

Our courses have been designed by industry experts to help students achieve their dream careers

Ratings & Reviews by Learners

Skill-Lync has received honest feedback from our learners around the globe.

4.8

Become a certified Civil Structural Engineer with our Reinforced Cement Concrete Design course

The Reinforced Cement Concrete Design is a 12-week online course. This concrete design course covers the basic concepts needed to analyze the RCC frame structures and Structural Systems. Industry Projects are also included in the curriculum, which will help you gain experience in solving real-time problems.

Skill-Lync is a leading e-learning platform for engineers that have specially designed the Reinforced Cement Concrete Design course to cater industry’s growing demands. The fee for this structural design course is flexible, and it ranges from INR 7,000 to INR 15,000 per month for three months. The basic plan would give you two months of access, the pro plan would give you four months of access, and the premium plan would provide you with lifetime access. You can choose a plan that would suit your requirements.

Who Should Take This Course?

Students interested in designing and analysing reinforced concrete structures can pursue this Reinforced Cement Concrete Design course. Industry experts have designed this concrete design course for students and graduates from civil and related engineering disciplines.

If you have a keen interest in beams and columns then this course is for you. Professionals who want to upskill themselves for career growth can also learn the design of concrete structures.

What Will You Learn?

This course will teach you industry-relevant concepts and tools used in top OEMs. Through this concrete design course,

You will learn about structural design, stress-strain curves and concrete stress-strain curves.
You will learn Design Philosophies, the Theory of Flexures and one-way and two-way slabs.
You will learn about the concepts of the flanged beam and how to analyse flanged beams in flexure.
You will learn about the shear transfer mechanism, modes of cracking, principal shear stress and nominal shear stress.
You will learn about types of foundations - Isolated, Raft, Combined and Wall Foundations.

Skills You Will Gain

You will be proficient in the design and analysis of RCC Structures.
Working on industry-relevant projects will help you gain industry-relevant skills.
You will gain hands-on experience in a key technology tool, STAAD.Pro.

Key Highlights of the Program

This is a 12-week course.
Besides the course completion certificate for all participants, the top 5% of learners get a merit certificate.
You will get email support and forum support to clear your queries and doubts.
Real-time industry-relevant projects will make your learning purposeful.

Career Opportunities after Taking the Course

After completing the Reinforced Cement Concrete Design course, several career opportunities will open up for you. Some positions that you can work for include,

RCC Structure Design Engineer

Civil Structural Engineer

Bridge Design Engineer

FAQs on Reinforced Cement Concrete Design

Who can take up this concrete design course?

Students and graduates of civil and related engineering streams can take up the Reinforced Cement Concrete Design course. If your area of interest lies in the design and analysis of RCC structures, you can pursue this structural design course.

Is this course for the design of concrete structures an online program?

Yes, the Reinforced Cement Concrete Design is a 100% online course.

What is the duration of the Reinforced Cement Concrete Design?

This concrete design course is a 12-week course.

What is the fee for learning the design of concrete structures at Skill-Lync?

The fee structure is flexible, and it ranges from INR 7,000 to INR 15,000 per month for three months. The basic plan would give you two months of access, the pro plan would give you four months of access, and the premium plan would provide you with lifetime access.

How much can a Structural Engineer earn?

According to Glassdoor, the average salary of a Civil Structural Engineer is ₹ 6 lakhs per annum. However, it primarily depends on your experience and expertise.

Is there any certificate for completing the concrete design course?

Yes, After completing the Reinforced Cement Concrete Design course, you shall be given a course completion certificate. The top 5% of the scorers will be given a merit certificate alongside the course completion certificate.

How can I clear my queries if I got doubts while studying the design of concrete structures?

You can clear your queries with email and forum support.

Who has designed the structural design course?

Industry experts in this domain have designed the Reinforced Cement Concrete Design course to make this course industry-relevant.

Do I need to work on projects for completing the concrete design course?

Yes, You have to work on projects for completing the Reinforced Cement Concrete Design course.

Flexible Pricing

Talk to our career counsellors to get flexible payment options.

Premium

INR 45,000

Inclusive of all charges

Become job ready with our comprehensive industry focused curriculum for freshers & early career professionals

1 Year Accessto Skill-Lync’s Learning Management System (LMS)
Personalized Pageto showcase Projects & Certifications
Live Individual & Group Sessionsto resolve queries, Discuss Progress and Study Plans.
Personalized & Hands-OnSupport over Mail, Telephone for Query Resolution & Overall Learner Progress.
Job-Oriented Industry Relevant Curriculumavailable at your fingertips curated by Global Industry Experts along with Live Sessions.