Teaching Scheme (in Hours)
| Theory |
Tutorial |
Practical |
Total |
| 4 |
2 |
0 |
6 |
Subject Credit : 6
Examination Scheme (in Marks)
Theory
ESE (E)
|
Theory
PA (M)
|
Practical
ESE Viva (V)
|
Practical
PA (I)
|
Total
|
| 70 |
30 |
30 |
20 |
150 |
Syllabus Content
Unit-65: Module - 1 Introduction
Objectives, Properties of Reinforced Concrete and Structural Steel, Loads & load combinations, Methods of Analysis, Codes & specifications, Design Philosophies - Working stress Method, Ultimate Load Method, Limit State Method, Plastic Method.
Unit-65: Module - 2 Limit state design of RC elements
(A) Philosophy of Limit state design:
Limit state of collapse & serviceability, partial safety factors for material & loading.
Limit State of Flexure: Stress-strain characteristics of concrete & reinforcing steel, Type of section-under reinforced, over reinforced & balance section, Neutral Axis depth, Moment of Resistance for singly reinforced, doubly reinforced and flanged sections
Limit State of Shear and Torsion, combined flexure & torsion, Bond & Anchorage, Development length, splicing
(B) Design of Beams: Simply supported, cantilever and continuous beams
(C) Design of Slab: One way, two way simply supported and continuous slabs
(D) Design of Column: Classifications, Assumptions, Design of Short Columns under axial load
(E) Design of Foundations: Design of isolated footing under axial load and uni-axial bending, combined footing
Unit-65: Module - 3 Limit State Design of Steel Elements
(A) Philosophy of Limit state design:
Limit state of collapse & serviceability, partial safety factor for material and loading, Type & behavior of sections – Plastic, compact, semicompact, slender.
(B) Connections:
Bolted connections – bearing type, behavior of bolted joints, Design strength of ordinary & HSFG bolts. Welded connections Fillet and Butt weld, design of simple connections such as lap and butt joints, truss joint connections.
(C) Axial force design:
Tension member: types of tension member, behavior, modes of failure, Design of tension member, splices, lug angle. Compression member: Behaviour, classification of sections, possible modes of failure, elastic buckling of slender member, design of compression member having single & built-up section, lacing & battening,
(D) Design for Beams and Beam-Columns:
Type of sections, classification, Lateral stability, Design strength of laterally restrained and unrestrained bea
Reference Books
| Sr. |
Title |
Author |
Publication |
Amazon Link |
| 1 |
Limit State Theory & Design of Reinforced Concrete |
Shah & Karve |
Structure Pub., Pune |
|
| 2 |
Reinforced concrete Vol-I |
Dr. H.J. Shah |
Charotar Pub. Anand |
|
| 3 |
Design of Concrete Structures |
A.K.Jain |
Nemchand Publication |
|
| 4 |
Design of Steel Structures; |
Arya A.S. & Ajamani J.L |
Nemchand & Bros., Roorkee |
|
| 5 |
Design of Steel Structures |
Ramamrutham S. & Narayanan R |
Dhanpatrai & Sons, Delhi |
|
