Design of Reinforced Concrete – Jack C. McCormac, Russell H. Brown – 9th Edition

Description

The ninth edition of the best-selling of Reinforced continues the tradition of earlier editions by introducing the of reinforced design in a clear and understandable manner and grounded in the basic principles of of solids. Students build on their understanding of basic to learn new concepts such as compressive stress and strain in while applying current ACI Code.

The ninth edition has been updated to conform to the 2011 Building Code of the American Concrete Institute (ACI 318-11).

Although written for an introductory three credit hour undergraduate course on reinforced concrete design, this also has sufficient material for a second three credit hour course. This book is also useful for practicing , as it presents the latest requirements of the ACI design code.

With its accessible approach and streamlined coverage of theory, engineers will quickly learn how to apply the concepts in the eighth edition. The contents have been updated to conform to the 2008 building code of the American Concrete Institute (ACI 318-08). New spreadsheets are included that arm the reader with to analyze and design reinforced concrete elements and quickly compare alternative solutions. A new chapter on seismic design explores the issues related to the design of reinforced concrete to resist earthquakes. The new materials section also provides engineers with details and examples on how to design shear walls for combined axial load and bending moment.

Table of Contents

1. Introduction
2. Flexural Analysis of Beams
3. Strength Analysis of Beams According to ACI Code
4. Design of Rectangular Beams and One-Way Slabs
5. Analysis and Design of T Beams and Doubly Reinforced Beams
6. Serviceability
7. Bond, Development Lengths, and Splices
8. Shear and Diagonal Tension
9. Introduction to Columns
10. Design of Short Columns Subject to Axial Load and Bending
11. Slender Columns
12. Footings
13. Retaining Walls
14. Continuous Reinforced Concrete Structures
15. Torsion
16. Two-Way Slabs, Direct Design Method
17. Two-Way Slabs, Equivalent Frame Method
18. Walls
19. Prestressed Concrete
20. Reinforced Concrete Masonry

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