+353-1-416-8900REST OF WORLD
+44-20-3973-8888REST OF WORLD
1-917-300-0470EAST COAST U.S
1-800-526-8630U.S. (TOLL FREE)

Analysis and Design of Prestressed Concrete

  • Book

  • April 2022
  • Elsevier Science and Technology
  • ID: 5548534

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.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

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

Authors

Di Hu Associate Professor, School of Civil Engineering, Central South University, China. Di Hu is Associate Professor in the School of Civil Engineering, at Central South University, China. He obtained his PhD from Central South University, on transportation engineering. He has been researching prestressed concrete structures for over 20 years, including on bridge load tests, and has worked on the design of over ten bridges. He has previously been a visiting scholar at the University of British Columbia, as well as being assigned by the China Ministry of Railways to Nigeria as part of an expert group on bridge engineering and steel bridge maintenance. He is the author of and monographs, as well as numerous research articles.