1. Introduction
2. Advantages and Types of Prestressing
3. Pre-tensioning Systems and Devices
4. Post-tensioning Systems and Devices
5. Concrete (Part I)
6. Concrete (Part II)
7. Prestressing Steel
8. Losses in Prestress (Part I)
9. Losses in Prestress (Part II)
10. Losses in Prestress (Part III)
11. Analysis of Members under Axial Load
12. Analysis of Members under Flexure (Part I)
13. Analysis of Members under Flexure (Part II)
14. Analysis of Members under Flexure (Part III)
15. Analysis of Members under Flexure (Part IV)
16. Analysis of Members under Flexure (Part V)
17. Design of Members
18. Design of Sections for Flexure
19. Design of Sections for Flexure (Part II)
20. Design of Sections for Flexure (Part III)
21. Design of Sections for Flexure (Part IV)
22. Detailing Requirements for Flexure
23. Analysis for Shear
24. Design for Shear (Part I)
25. Design for Shear (Part II)
26. Analysis for Torsion
27. Design for Torsion (Part I)
28. Design for Torsion (Part II)
29. Calculation of Deflection
30. Calculation of Crack Width
31. Transmission of Prestress (Part I)
32. Transmission of Prestress (Part II)
33. Cantilever Beams
34. Continuous Beams (Part I)
35. Continuous Beams (Part II)
36. Composite Sections
37. One-way Slabs
38. Two-way Slabs (Part I)
39. Two-way Slabs (Part II)
40. Compression Members
41. Circular Prestressing
42. Bibliography

About The Author

Civil Engineer

Hello, My self Neelmani, A Civil Engineer. Presently I am working with Indian Railway. An Affiliate Member of ASCE “American Society of Civil Engineers”. B.Tech in Civil Engineering from MIT Muzaffarpur and Diploma in Railway from IPWE as well as Civil Engineering from Govt. Polytechnic Muzaffarpur.

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