Description

Introduction and material properties - Elastic Method - Analysis and design of beams considering flexure - Limit slate Design Method - Analysis and Design of beams considering flexure and shear -Development length and anchorage - Design of one- way at two-way solid slabs - Analysis and design of short columns.

Program

Bachelor Degree in Construction and Building Engineering

Objectives

The objective of this course is to describe the behavior of reinforced concrete components and structures, which leads to analysis and design of concrete structures reinforced.

Textbook

Data will be available soon!

Course Content

content serial	Description
1	Week No.1: Introduction to material properties.
2	Week No.2: Elastic method: analysis of beams considering flexure.
3	Week No.3: Elastic method: design of beams considering flexure.
4	Week No.4: Limit state design method: analysis of beams considering flexure.
5	Week No.5: Limit state design method: design of beams considering flexure.
6	Week No.6: Limit state design method: design of beams considering flexure, Continued.
7	Week No.7: Limit state design method: design of beams considering flexure, Continued.
8	Week No.8: Principle of shear and torsion.
9	Week No.9: Design of beams considering shear and torsion.
10	Week No.10: Development length according to ECP 2000.
11	Week No.11: Deflection.
12	Week No.12: Design of two-way slabs.
13	Week No.13: Design of two-way slabs, continued.
14	Week No.14: Design of two-way slabs, Continued.
15	Week No.15: Design of short columns.
16	Week No.16: Final Exam.

Markets and Career

Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
Electrical power feeding for civil and military marine and aviation utilities.
Electrical works in construction engineering.

Degree Bachelor
Code: CB354
Credit hrs: 3
Prequisites: CB343

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Design of Reinforced Concrete Structures 1