Prestressing concrete technology is critical to understanding problems in existing civic structures including railway and highway bridges; to the rehabilitation of older structures; and to the design of new high-speed railway and long-span highway bridges. Analysis and Design of Prestressed Concrete delivers foundational concepts, and the latest research and design methods for the engineering of prestressed concrete, paying particular attention to crack resistance in the design of high-speed railway and long-span highway prestressed concrete bridges. The volume offers readers a comprehensive resource on prestressing technology and applications, as well as the advanced treatment of prestress losses and performance. Key aspects of this volume include analysis and design of prestressed concrete structures using a prestressing knowledge system, from initial stages to service; detailed loss calculation; time-dependent analysis on cross-sectional stresses; straightforward, simplified methods specified in codes; and in-depth calculation methods. Sixteen chapters combine standards and current research, theoretical analysis, and design methods into a practical resource on the analysis and design of prestressed concrete, as well as presenting novel calculation methods and theoretical models of practical use to engineers. 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 INDICE: 1. Basic concepts and applications of prestressed concrete2. Prestressing materials3. Prestressing methods and construction technology4. The philosophy of analysis and design5. Calculation of effective stress in prestressing tendons6. Prestressing force effect on structural internal forces7. Stress analysis of prestressed concrete flexural members8. Calculation of deflection and crack width9. Design of prestressed concrete flexural members10. Analysis and design of prestressed composite beams11. Analysis and design of prestressed concrete torsional members12. Analysis and design of prestressed compression and tension members13. Analysis and design of anchorage zone14. Design of unbonded prestressed concrete beams15. Analysis and design of prestressed concrete slabs16. Analysis and design of external prestressed concrete structures
- ISBN: 978-0-12-824425-8
- Editorial: Elsevier
- Encuadernacion: Rústica
- Páginas: 250
- Fecha Publicación: 01/08/2022
- Nº Volúmenes: 1
- Idioma: Inglés