Reinforced Cement Concrete Design
RELATED RECENT PLACEMENTS
Jayesh Suryawanshi
Volkswagen (I) Pvt. Ltd.,
RMD Sinhgad
Mithin SanthaKumar
Timetooth Technology
Cochin University of Science and Technology University in Kochi, Kerala
Manthan Waghaye
Altigreen Propulsion Labs Pvt Ltd
Shri Sant Gajanan Maharaj College Of Engineering
Hemant Sagar
KN Associates
PM polytechnic, Delhi ncr , sonipat
Jangaiah Chikonda
LTTS
ANURAG GROUP OF INSTITUTIONS
sai dinesh
LTTS
usharama college of engineering and technology
Vadapalli A S Krishna Maruthi Srinivas
advance technologies
Jawaharlal Nehru Technological University, Kakinada
Manas Metar
Sphinix World Biz Limited
University of Wolverhampton
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
Design of beams and slabs for shear and Design of columns for compression and uniaxial bending using SP16 charts
Our courses have been designed by industry experts to help students achieve their dream careers
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Flexible Pricing
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INR 40,000
Inclusive of all charges
Become job ready with our comprehensive industry focused curriculum for freshers & early career professionals
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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.
Instructors profiles
Our courses are designed by leading academicians and experienced industry professionals.
1 industry expert
Our instructors are industry experts along with a passion to teach.
6 years in the experience range
Instructors with 6 years extensive industry experience.
Areas of expertise
- Building Design
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