This document outlines the course Reinforced Concrete Design-II. The course covers analysis and design of reinforced concrete beams and frames with continuity, flat slabs, waffle slabs, slender columns, foundations, and prestressed concrete members. It also discusses prestress losses and analysis/design of prestressed beams. The course aims to teach analysis and design of reinforced concrete structural elements, selection of foundations, and principles of prestressed concrete. Students will be assessed through tests, exams, assignments, and a final exam.
2. REINFORCED CONCRETE DESIGN-II
2
Continuity in
Reinforced Concrete
beams and frames
Bending moments and shear force envelopes,
Simplifications Allowed in Frame Analysis,
Modelling or Idealization of the Structure, ACI
318 Moment Coefficient Method
Flat Slab, Flat Plate
& Waffle Slab
Analysis and design of flat plate, flat slabs and
waffle slabs, for flexure and shear under gravity
loading.
Design for Torsion Torsion in reinforced concrete members. Analysis
and design of reinforced concrete members under
combined torsion and shear stress.
Slender Columns Analysis and design of slender columns subjected
to combined flexure and axial loading
Design of Different
Types of Foundations
Analysis and design of eccentric, strap, strip
footings and pile caps.
3. 3
Prestressing
Principles & Design
Philosophy
Principles of prestressing, properties of high
strength materials used in prestressing;
Importance of high strength concrete and steel
used in prestressing; Behavioral aspects of
prestressed beams and comparison with
reinforced concrete beams, post tensioning and
pre-tensioning techniques, comparison and hard-
ware requirements.
Prestress Losses Prestress losses, immediate and time dependent
losses, lump sum and detailed estimation of
prestress loss.
Analysis and Design Simply supported prestressed beams for flexure
and shear.
REINFORCED CONCRETE DESIGN-II
4. 4
Text and Reference Books:
• Structural Concrete Theory and Design, Fifth Edition,
by M. Nadim Hassoun, Akthem Al-Manaseer, John
Wiley Inc.
• Design of Concrete Structures, Fourteenth edition, by
Arthur H Nilson, David Darwin, Charles W. Dolan,
McGraw-Hill.
• Reinforced Concrete Design, 7th Edition, C. K. Wang,
C. G. Salmon and J. A. Pincheira, Addition Wesley
Longman.
• Notes on ACI-Code By PCA-02
REINFORCED CONCRETE DESIGN-II
5. 5
COURSE LEARNING OUTCOMES
REINFORCED CONCRETE DESIGN-II
Course Learning Outcome (CLO)
Taxonomy
Level
Program Learning
Outcome (PLO)
Assessment
1.Analysis and design of RC
elements of superstructure.
C4
Problem
Analysis
Test1
Mid-term Exa
Group Assign
Final Exam
2. Selection and design of
foundations under different
soil conditions.
C5 Investigation
Group Assign
Final Exam
3. Understanding the principles
and design of prestressed
concrete members.
C2
Engineering
Knowledge
Test1, Test 2
Group Assign
Final Exam
16. REINFORCED CONCRETE DESIGN-II
16
Load Transfer in Structure
Floor loads
Slab + Dead load Wall load
Beam + Dead load
Column + Dead load
Foundation
Wind or Earthquake
load
Roof + Dead load
Snow, Rain, Wind
and Construction load