# Applied Science University Faculty of Engineering Department of Civil Engineering

Urban and Civil

Nov 29, 2013 (4 years and 7 months ago)

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Applied Science University

Faculty of Engineering

Department of Civil Engineering

Course:

Reinforced Concrete Design (1)

Course Number:

0805425

Instructor:

Dr. Ma’en Abdel
-
Jaber

Credit Hours:

4

Textbook
:

1.

Concrete Structures

By Falah Wegia
n

Second Edition, Falah Wegian, 2004.

2.

Reinforced concrete Design

By Kenneth Leet

Third Edition, McGraw Hill, 1997.

3.

Building Code Requirements for Structural Concrete

and Commentary (ACI
-
318
-
95)

American Concrete Institute, 1995.

Obje
ctives:

1.

To enable the student to design single and double reinforced concrete beams of
rectangular section, T
-
section or any other shape for flexure.

2.

To enable the student to check the serviceability and durability of beams
regarding cracking and deflectio
n.

3.

To enable the student to design shear and diagonal tension of beams using
stirrups.

4.

To enable the student to study the bonding and the development length effects on
the efficiency of the design.

Homework

10%

Exam 1

20%

Exam 2

20%

Fi
nal Exam

50%

Total

100%

Course Outline:

1

Introduction:

Reinforced Concrete, Types of Loads

Design Methods, The ACI code

2

Flexural Analysis of Beams:

Rectangular Beams, T
-
Beams, Doubly Reinforced Beams

3

Design of Beams for flexure:

Strength
Design Method

Working Stress Design Method

Rectangular Beams, T
-
Beams, Doubly Reinforced Beams

Underreinforced and Overreinforced Beams

4

Shear and Diagonal Tension:

Shear Cracking, Web Reinforcement

Design of Beams for Shear

Design of Stirrups

5

Desig
n of Simple and Continuous Deep Beams

6

Bond, Development Lengths, and Splices:

Bond Stresses, Development Length

Hooks, Bar Splices

7

Design of Continuous One
-
Way Slabs and Continuous Beams:

Continuous Frame Analysis, The ACI Code Coefficients

Desi
gn of Continuous One
-
Way Slabs and Continuous Beams

8

Serviceability:

Calculations of Deflections, Control of Deflections

Types of Cracks, Control of Cracks

9

Course Project

References:

1.

Design of Reinforced Concrete

by Jack C. McCormac, Third E
dition, Harper Collins, 1993.

2.

Reinforced Concrete: A Fundamental Approach

by Edward G. Nawy, Third Edition, Prentice Hall, 1996.

3.

Reinforced Concrete Fundamentals

by Phil M. Ferguson, John E. Breen and James O. Jirsa

Fifth Edition, John Wiley & S
ons, 1988.

4.

Design of Concrete Structures

by Arthur H. Nilson and George Winter, Eleventh Edition, McGraw Hill, 1991.