Strengthening and Rehabilitation of Civil Infrastructures Using Fibre-Reinforced Poly

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Strengthening and Rehabilitation of Civil Infrastructures Using Fibre-Reinforced Polymer (FRP) Composites

Author: Len C. Hollaway | Size: 22.6 MB | Format: PDF | Publisher: CRC Press | Year: 2008 | pages: 350 | ISBN: 1420087746

The repair of deteriorated, damaged and substandard civil infrastructures has become one of the most important issues for the civil engineer worldwide. This book discusses the use of externally bonded fibre-reinforced polymer (FRP) composites to strengthen, rehabilitate and retrofit civil engineering structures, covering such aspects as material behavior, structural design and quality assurance.

The first three chapters of the book review structurally deficient civil engineering infrastructure, including concrete, metallic, masonry, and timber structures. FRP composites used in rehabilitation and surface preparation of the component materials are also reviewed. The next four chapters deal with the design of FRP systems for the flexural and shear strengthening of reinforced concrete (RC) beams and the strengthening of RC columns. The following two chapters examine the strengthening of metallic and masonry structures with FRP composites. The last four chapters of the book are devoted to practical considerations in the flexural strengthening of beams with unstressed and prestressed FRP plates, durability of externally bonded FRP composite systems, quality assurance and control, maintenance, repair, and case studies.

With its distinguished editors and international team of contributors, Strengthening and rehabilitation of civil infrastructures using fibre-reinforced polymer (FRP) composites will be a valuable reference guide for engineers, scientists and technical personnel in civil and structural engineering working on the rehabilitation and strengthening of the civil infrastructure.

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MIRROR LINKS: Strengthening and rehabilitation of civil infrastructures using fibre-reinforced polymer (FRP) composites (Woodhead Publishing in Materials) >> Edited by L C Hollaway, University of Surrey, UK and J G Teng, The Hong Kong Polytechnic University, China

Author: Edited by L C Hollaway, University of Surrey, UK and J G Teng, The Hong Kong Polytechnic University, China | Size: 22.6 MB | Format: PDF | Publisher: Woodhead Publishing Limited | Year: July 2008 | pages: 415 | ISBN: ISBN 1 84569 448 1 ISBN-13: 978 1 84569 448 7

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- reviews the use of fibre-reinforced polymer (FRP) composites in structurally damaged and sub-standard civil engineering structures
- examines the role and benefits of fibre-reinforced polymer (FRP) composites in different types of structures such as masonry and metallic strengthening
- covers practical considerations including material behaviour, structural design and quality assurance

About the editors

Professor Len C. Hollaway is Emeritus Professor of Composite Structures at the University of Surrey, UK.

Professor Jin Guang Teng is Associate Vice President, Dean of the Faculty of Construction and Land Use, and Professor of Structural Engineering at The Hong Kong Polytechnic University, China.


Contents

Structurally deficient civil engineering infrastructure: concrete, metallic, masonry and timber structures
L De Lorenzis, University of Salento, Italy, T J Stratford, University of Edinburgh and L C Hollaway, University of Surrey, UK
- Introduction
- Structural deficiencies
- Structural deficiencies in concrete structures
- Strengthening concrete structures using FRP composites
- Metallic materials used in civil infrastructure
- Structural deficiencies in metallic infrastructure
- Strengthening metallic structures using FRP composites
- Overview of masonry structures
- Structural deficiencies in masonry structures
- Strengthening masonry structures using FRP composites
- Overview of timber structures
- Structural deficiencies in timber structures
- Strengthening timber structures using FRP composites
- Drivers for using FRP composites rather than conventional strengthening options
- References

Fibre-reinforced polymer (FRP) composites used in rehabilitation
L C Hollaway, University of Surrey, UK
- Introduction
- Component parts of composite materials
- Properties of matrices
- Filaments and fibres
- The advanced polymer composite
- The mechanical properties of advanced polymer composites
- The in-service properties of advanced polymer composites
- Conclusion
- Sources of further information and advice
- References

Surface preparation of component materials
A R Hutchinson, Oxford Brookes University, UK
- Introduction
- Adhesion and interfacial contact
- Primers and coupling agents
- Surface preparation
- Surface preparation of concrete
- Surface preparation of metallic materials
- Surface preparation of timber
- Surface preparation of FRP materials
- Assessment of surface condition prior to bonding
- The bonding operation
- Quality assurance testing and acceptance criteria
- Summary
- References

Flexural strengthening of reinforced concrete (RC) beams with fibre-reinforced polymer (FRP) composites
J G Teng, The Hong Kong Polytechnic University, China, S T Smith, The University of Hong Kong, China, J F Chen, The University of Edinburgh, UK
- Introduction
- Failure modes
- Flexural strength of an FRP-plated section
- Interfacial stresses
- Bond behaviour
- Strength models for debonding failures
- Design procedure
- Application of the design procedure to indeterminate beams
- Acknowledgement
- References

Shear strengthening of reinforced concrete (RC) beams with fibre-reinforced polymer (FRP) composites
J F Chen, The University of Edinburgh, UK and J G Teng, The Hong Kong Polytechnic University, China
- Introduction
- Strengthening schemes
- Failure modes
- Shear strengths of FRP strengthened reinforced concrete beams
- Design procedure
- Acknowledgement
- References

Strengthening of reinforced concrete (RC) columns with fibre-reinforced polymer (FRP) composites
J G Teng and T Jiang, The Hong Kong Polytechnic University, China
- Introduction
- Behavior of FRP-confined concrete
- Design-oriented stress-strain models for FRP-confined concrete
- Analysis-oriented stress strain models for FRP-confined concrete
- Section analysis
- Design of FRP-confined reinforced concrete columns
- Acknowledgement
- References

Design guidelines for fibre-reinforced polymer (FRP)-strengthened reinforced concrete (RC) structures
J G Teng, The Hong Kong Polytechnic University, China, S T Smith, The University of Hong Kong, China and J F Chen, The University of Edinburgh, UK
- Introduction
- General assumptions
- Limit states and reinforced concrete design
- Material properties: characteristic and design values
- Flexural strengthening
- Shear strengthening
- Strengthening of columns with FRP wraps
- Acknowledgement
- References

Strengthening of metallic structures with fibre-reinforced polymer (FRP) composites
T J Stratford, University of Edinburgh, UK
- Introduction
- Critical issues in the design of FRP strengthening for metallic structures
- Selection of strengthening materials
- Design of flexural strengthening
- Design in cases other than flexural strengthening
- References

Strengthening of masonry structures with fibre-reinforced polymer (FRP) composites
L De Lorenzis, University of Salento, Italy
- Introduction
- General aspects of FRP strengthening masonry structures
- Bond of FRP systems to masonry
- Strengthening of masonry panels under out-of-plane loads
- Strengthening of masonry panels under in-plane loads
- Strengthening of lintels and floor belts
- Strengthening of arches and vaults
- Confinement of masonry columns
- Other applications
- Detailing issues
- References

Flexural strengthening application of fibre-reinforced polymer (FRP) plates
L Canning and S Luke, Mouchel, UK
- Introduction
- Unstressed FRP composite systems
- Prestressed FRP composite systems
- Stages within the FRP strengthening installation process
- FRP strengthening site activities
- Inspection, maintenance and monitoring
- Relationship between application and design
- Conclusions
- References

Durability of externally bonded fibre-reinforced polymer (FRP) composite systems
T E Boothby and C E Bakis, The Pennsylvania State University, USA
- Introduction
- FRP composites
- Externally bonded concrete-FRP hybrid systems
- Externally bonded wood-FRP hybrid systems
- Externally bonded masonry-FRP hybrid systems
- Externally bonded steel-FRP hybrid systems
- Conclusion
- References

Quality assurance/quality control, maintenance and repair
J L Clarke, Concrete Society, UK
- Introduction
- Deterioration and damage
- The need for an inspection regime
- Inspection during strengthening
- Instrumentation and load testing
- Inspection of strengthened structures
- Routine maintenance and repair
- Summary and conclusions
- Acknowledgements
- References

Case studies
L C Hollaway, University of Surrey, UK
- Introduction
- The manufacturing systems used in the case studies considered
- Case study1: Reinforced concrete beams strengthening with unstressed FRP composites
- Case study 2: Repair and strengthening the infrastructure utilising FRP composites in cold climates
- Case study 3: Pre-stressed concrete bridges strengthening with pre-stressed FRP composites
- Case study 4: Rehabilitation of aluminium structural system
- Case study 5: Metallic structures strengthening with unstressed FRP composites
- Case study 6: Metallic structures strengthening with pre-stressed FRP composites
- Case study 7: Preservation of historical structures with FRP composites
- Acknowledgements
- Sources of further information and advice
- References

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