DESIGN OF REINFORCED CONCRETE - NINTH EDITION (PDF)

 

 Preface 

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 

A. Tables and Graphs: U.S. Customary Units

B. Tables in SI Units

C. The Strut-and-Tie Method of Design 

D. Seismic Design of Reinforced Concrete Structures 

Glossary

Index

 

New to This Edition

Updated Code
With the ninth edition of this text, the contents have been updated to conform to the 2011
Building Code of the American Concrete Institute (ACI 318-11). Changes to this edition of the
code include:

• Factored load combinations are now based on ASCE/SEI 7-10, which now treats wind as a strength level load.
• Minor revisions to development length to headed bars.
• Addition of minimum reinforcement provisions to deep beams.
• Introduction of Grade 80 deformed bars in accordance with ASTM 615 and ASTM 706.
• Zinc and epoxy dual-coated reinforcing bars are now permitted in accordance with ASTM A1055.

 

 

New Chapter on Concrete Masonry

A new chapter on strength design of reinforced concrete masonry has been added to replace the previous Chapter 20 on formwork. Surveys revealed that the forms chapter was not being used and that a chapter on masonry would be more valuable. Because strength design of reinforced concrete masonry is so similar to that of reinforced concrete, the authors felt that this would be a logical extension to the application of the theories developed earlier in the text. The design of masonry lintels, walls loaded out-of-plane, and shear walls are included. The subject of this chapter could easily occupy an entire textbook, so this chapter is limited in scope to only the basics. An example of the design of each type of masonry element is also included to show the student some typical applications.

 

Units Added to Example Problems

The example problems now have units associated with the input values. This will assist the student in determining the source of each input value as well as help in the use of dimensional analysis in determining the correct answers and the units of the answers. Often the student can catch errors in calculations simply by checking the dimensions of the calculated answer against what the units are known to be.

 

Organization

The text is written in the order that the authors feel would follow the normal sequence of presentation for an introductory course in reinforced concrete design. In this way, it is hoped that skipping back and forth from chapter to chapter will be minimized. The material on columns is included in three chapters (Chapters 9, 10, and 11). Some instructors do not have time to cover the material on slender columns, so it was put in a separate chapter (Chapter 11). The remaining material on columns was separated into two chapters in order to emphasize the difference between columns that are primarily axially loaded (Chapter 9) and those with significant bending moment combined with axial load (Chapter 10). The material formerly in Chapter 21, “Seismic Design of Concrete Structures,” has been updated and moved to a new appendix (Appendix D).

 

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