ACI 318-08 Notes

This tenth edition has been updated to reflect code changes introduced in the latest version of Building Code Requirements for Structural Concrete, ACI 318-08, and Commentary, ACI 318R-08. All design examples have been revised to reflect the new notation and terminology, load and strength reduction factors, and the unified design provisions for reinforced and prestressed concrete members under flexure and axial load. An alternative torsion design method is summarized and its application illustrated through an example. Enhanced provisions for the design of anchors are described, and their application illustrated through several examples. Each chapter of the manual starts with a description of latest code changes. Emphasis is placed on how-to-use the code. Numerous design examples illustrate application of the code provisions. The primary purpose for the Notes is to assist the engineer and architect in the proper application of the ACI 318-08 design standard. This document is also a valuable aid for educators, undergraduate and graduate students, contractors, materials and product manufacturers, building code authorities, and inspectors.

This product replaced by:ACI 318-11 - Building Code Requirements for Structural Concrete and Commentary
This product is related to: ACI 318-08 - Building Code Requirements for Structural Concrete and Commentary (Includes Errata)
CRSI 10-MSPHARD / 10-MSPSOFT - EB0708: PCA NOTES ON 318-08 Building Code Requirements for Structural Concrete with Design Applications
This product replaces:ACI 318-05 Notes - Portland Cement Association (PCA) Notes on ACI 318-05

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ACI 318-11
ACI 318-08/318R-08 Notes Set
ACI 318-08 Notes
ACI 318-08
ACI 318-05/318R-05 Notes Set
ACI 318-05/318R-05
ACI 318-05 Notes
ACI 318-02/318R-02 Notes Set
ACI 318-02/318R-02
ACI 318-02 Notes
ACI 318-99

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Table of Contents:

1. General Requirements

2. Materials, Concrete Quality

3. Details of Reinforcement

4. Development and Splices of Reinforcement

5. Design Methods and Strength Requirements

6. General Principles of Strength Design

7. Design for Flexure and Axial Load

8. Redistribution of Factored Maximum Moments in Continuous Flexural Members

9. Distribution of Flexural Reinforcement

10. Deflections

11. Design for Slenderness Effects

12. Shear

13. Torsion

14. Shear Friction

15. Brackets, Corbels and Beam Ledges

16. Shear in Slabs

17. Strut-and-Tie Models

18. Two-Way Slab Systems

19. Two-Way Slabs - Direct Design Method

20. Two-Way Slabs - Equivalent Frame Method

21. Walls

22. Footings

23. Precast Concrete

24. Prestressed Concrete - Flexure

25. Prestressed Concrete - Shear

26. Prestressed Slab Systems

27. Shells and Folded Plate Members

28. Strength Evaluation of Existing Structures

29. Earthquake-Resistant Structures

30. Structural Plain Concrete

31. Alternate (Working Stress) Design Method

32. Alternative Provisions for Reinforced and Prestressed Concrete Flexural and Compression Members

33. Alternative Load and Strength Reduction Factors

34. Anchorage to Concrete