Rehabilitation of Metallic Structural Systems Using Fiber Reinforced Polymer (FRP) Composites

Name: Rehabilitation of Metallic Structural Systems Using Fiber Reinforced Polymer (FRP) Composites
Author: Vistasp M. Karbhari

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Paperback, blz. | Engels

Elsevier Science | 2024

ISBN13: 9780443220845

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Elsevier Science e druk, 2024 9780443220845

Onderdeel van serie Woodhead Publishing Series in Civil and Structural Engineering

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Rehabilitation of Metallic Structural Systems Using Fiber-Reinforced Polymer (FRP) Composites, Second Edition provides comprehensive knowledge on the application of FRPs in various types of metallic field structures. Part I provides an overview of the various types of materials and systems and discusses the durability of bonds. Part II focuses on materials-level considerations, such as corrosion and mechanical behavior, putty effects on the effectiveness of pipeline systems, laser joining and the use of carbon and basalt FRP for underwater repair. Building on Part II, the final three sections focus on applications of FRP composites to steel components and various infrastructure systems.

This book will be a standard reference for civil engineers, designers, materials scientists, and other professionals who are involved in the rehabilitation of metallic structures using fiber reinforced polymer composites.

Specificaties

ISBN13:9780443220845

Taal:Engels

Bindwijze:Paperback

Uitgever:Elsevier Science

Serie:Woodhead Publishing Series in Civil and Structural Engineering

Inhoudsopgave

Part I: Overview 1 Materials and systems level overview 2 Environmental durability of adhesively bonded FRP/steel joints in bridge applications 3 Effect of temperature on the bond behavior of CFRP-to-steel interface 4 Putty effects on the effectiveness of FRP repair of steel pipeline systems Part II: Materials Level Considerations 5 Studies of laser joining PA66- and PEEK-based composites with titanium alloy through constructing interlocking structures at joint interface 6 The use of carbon and basalt FRP for underwater repair of steel structures 7 Fatigue life of steel components strengthened with FRP composites Part III: Performance under Fatigue, Cyclic and Impact Regimes 8 Illustration of the use of adhesively bonded Carbon Fiber Reinforced Polymer reinforcement to increase fatigue life of steel bridges 9 Design optimization of adhesive-bonded FRP patches for repairing fatigue cracks in steel structures 10 FRP strengthening of CHS steel members subject to cyclic loads 11 Strengthening under impact loads 12 Enhancing stability of steel structural sections using fiber reinforced polymer (FRP) composites Part IV: Application to Components 13 Rehabilitation of cracked aluminum components using fiber reinforced polymer (FRP) composites 14 CFRP-strengthened long steel columns and beam-columns 15 Extending the fatigue life of corroded steel plates using carbon fiber-reinforced polymer (CFRP) composites 16 Revamping of existing steel-railway bridges wih fiber-reinforced polymer (FRP) composites Part V: Application to Infrastructure Systems 17 The strengthening of historic metallic structures using fiber reinforced polymer composites 18 Surface crack growth in FRP repaired metallic pipes subjected to cyclic bending 19 Strengthening metallic structures with fiber reinforced polymer (FRP) composites 20 Analysis of reliability of corroded pipes repaired by FRP

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