Analysis and Design of Prestressed Concrete
Autor Di Huen Limba Engleză Paperback – 25 apr 2022
- Presents a new approach to calculating prestress losses due to anchorage seating
- Provides a unified method for calculating long-term prestress loss
- Details cross-sectional stress analysis of prestressed concrete beams from jacking to service
- Explains a new calculation method for long-term deflection of beams caused by creep and shrinkage
- Gives a new theoretical model for calculating long-term crack width
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Specificații
ISBN-13: 9780128244258
ISBN-10: 0128244259
Pagini: 460
Ilustrații: 190 illustrations (50 in full color)
Dimensiuni: 191 x 235 x 28 mm
Greutate: 0.79 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128244259
Pagini: 460
Ilustrații: 190 illustrations (50 in full color)
Dimensiuni: 191 x 235 x 28 mm
Greutate: 0.79 kg
Editura: ELSEVIER SCIENCE
Public țintă
Designers and researchers in prestressed concrete structures; advanced students in civil engineering, including railway bridge engineering, high-speed railway design and construction, highway bridge engineering, and road engineering.Cuprins
1. Basic concepts and applications of prestressed concrete
2. Prestressing materials
3. Prestressing methods and construction technology
4. The philosophy of analysis and design
5. Calculation of effective stress in prestressing tendons
6. Prestressing force effect on structural internal forces
7. Stress analysis of prestressed concrete flexural members
8. Calculation of deflection and crack width
9. Design of prestressed concrete flexural members
10. Analysis and design of prestressed composite beams
11. Analysis and design of prestressed concrete torsional members
12. Analysis and design of prestressed compression and tension members
13. Analysis and design of anchorage zone
14. Design of unbonded prestressed concrete beams
15. Analysis and design of prestressed concrete slabs
16. Analysis and design of external prestressed concrete structures
2. Prestressing materials
3. Prestressing methods and construction technology
4. The philosophy of analysis and design
5. Calculation of effective stress in prestressing tendons
6. Prestressing force effect on structural internal forces
7. Stress analysis of prestressed concrete flexural members
8. Calculation of deflection and crack width
9. Design of prestressed concrete flexural members
10. Analysis and design of prestressed composite beams
11. Analysis and design of prestressed concrete torsional members
12. Analysis and design of prestressed compression and tension members
13. Analysis and design of anchorage zone
14. Design of unbonded prestressed concrete beams
15. Analysis and design of prestressed concrete slabs
16. Analysis and design of external prestressed concrete structures