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Woodhead Publishing Series in Civil and Structural Engineering Ser.: Prestressed Members with External Fiber-Reinforced Polymer (FRP) Tendons : Design, Assessment, and Modeling by Sergio M. R. Lopes, Yanan Wu and Tiejiong Lou (2025, Trade Paperback)
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As external prestressing is considered to be one of the most powerful techniques in strengthening of existing structures, this book provides a comprehensive resource on the topics covered.The conventional use of prestressing steel is, however, naturally prone to corrosion.
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Product Identifiers
PublisherElsevier Science & Technology
ISBN-100443238774
ISBN-139780443238772
eBay Product ID (ePID)6065130620
Product Key Features
Number of Pages426 Pages
LanguageEnglish
Publication NamePrestressed Members with External Fiber-Reinforced Polymer (FRP) Tendons : Design, Assessment, and Modeling
SubjectConstruction / General, Structural, Civil / General
Publication Year2025
TypeTextbook
Subject AreaTechnology & Engineering
AuthorSergio M. R. Lopes, Yanan Wu, Tiejiong Lou
SeriesWoodhead Publishing Series in Civil and Structural Engineering Ser.
FormatTrade Paperback
Dimensions
Item Length9 in
Item Width6 in
Additional Product Features
Intended AudienceScholarly & Professional
Dewey Edition23
Dewey Decimal624.1773
Table Of Content1. Introduction 2. Finite element modeling at immediate loads 3. Second-order effects of externally prestressed concrete members 4. Simply supported prestressed concrete members with external FRP tendons 5. Moment redistribution in continuous prestressed concrete members with external CFRP tendons 6. Linear transformation and secondary moments 7. Continuous normal- and high-strength concrete members 8. Using FRP rebars instead of steel rebars in simply supported concrete members with external tendons 9. Using FRP rebars instead of steel rebars in continuous concrete members with external tendons 10. Externally prestressed steelconcrete composite girders 11. Using FRP reinforcement in steelconcrete composite girders 12. Finite element modeling at long-term sustained loads 13. Long-term behavior of prestressed concrete members with FRP/steel tendons
SynopsisThis book provides an overview of using fiber-reinforced polymer (FRP) tendons in structural engineering projects-including the design, assessment and modeling of their use. External prestressing is a powerful technique in the construction and strengthening of various structures. The conventional use of prestressing steel is, however, naturally prone to corrosion. The best strategy to solve completely the corrosion problem is the use of nonmetal materials instead of prestressing steel. Fiber-reinforced polymer (FRP) composites are ideal materials used for external tendons for their excellent corrosion resistance, high strength, and low weight. This book provides an overview of using FRRPs, including how to predict the short-and long-term behavior of externally prestressed concrete or steel-concrete composite members, their second-order effects; and examining the effectiveness of using FRP tendons instead of steel tendons for external prestressing. Key Features, Covers the use of FRP tendons when centred to those with external steel tendons, including key design issues, Addresses important topics in the field, including the second-order effects at immediate and sustained loads, Examines the stress in external tendons, moment, redistribution, linear transformation of external cables, prestress secondary moments, Covers long-term deformation prediction, Prestressed Members with External Fiber Reinforced Polymer (FRP) Tendons: Design, Assessment and Modelling provides an overview of using FRPs, including how to predict the short-term and long-term behavior of externally prestressed concrete or steel-concrete composite members, their second-order effects, and how to examine the effectiveness of using FRP tendons instead of steel tendons for external prestressing. As external prestressing is considered to be one of the most powerful techniques in strengthening of existing structures, this book provides a comprehensive resource on the topics covered. The conventional use of prestressing steel is, however, naturally prone to corrosion. The best strategy to solve completely the corrosion problem is the use of nonmetal materials instead of prestressing steel. Fiber reinforced polymer (FRP) composites are ideal materials used for external tendons for their excellent corrosion resistance, high strength and low weight.
