DESIGN OF CONCRETE STRUCTURES-------PHI
This text primarily analyses different methods of design of concrete structures as per IS 456: 2000 (Plain and Reinforced Concrete—Indian Standard Code of Practice, 4th revision, Bureau of Indian Standards). It gives greater emphasis on the limit state method so as to illustrate the acceptable limits for the safety and serviceability requirements of structures.
Besides dealing with yield line analysis for slabs, the book explains the working stress method and its use for designing reinforced concrete tension members, theory of redistribution of moments, and earthquake resistant design of structures.
This well-structured book develops an effective understanding of the theory through numerous solved problems, presenting step-by-step calculations. The use of SP-16 (Design Aids for Reinforced Concrete to IS: 456–1978) has also been explained in solving the problems.
KEY FEATURES :
Instructional Objectives at the beginning of the chapter highlight important concepts.
Summary at the end of the chapter to help student revise key points.
Sixty-nine solved illustrative examples presenting step-by-step calculations.
Chapter-end exercises to test student’s understanding of the concepts.
Forty Tests to enable students to gauge their preparedness for actual exams.
This comprehensive text is suitable for undergraduate students of civil engineering and architecture. It can also be useful to professional engineers.
Contents:
Acknowledgements
1. Objectives and Methods of Analysis and Design
2. Properties of Concrete and Steel
3. Philosophies of Design by Limit State Method
4. Limit State of Collapse: Flexure (Theory and Problems)
5. Doubly Reinforced Beams: Theory and Problems
6. Flanged Beams: Theory and Numerical Problems
7. Limit State of Collapse in Shear: Theory and Numerical Problems
8. Bond, Anchorage, Development Length and Torsion
9. Limit State of Serviceability
10. Reinforced Concrete Slabs
11. Staircases
12. Compression Members
13. Foundations: Theory and Design
14. Yield Line Analysis for Slabs
15. Working Stress Method
16. Tension Members
17. Redistribution of Moments
18. Earthquake Resistant Design of Structures
Index
