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Strengthening of Concrete Structures Using Fiber Reinforced Polymers (FRP)

Strengthening of Concrete Structures Using Fiber Reinforced Polymers (FRP)
Design, Construction and Practical Applications

by Hwai-Chung Wu,Christopher D Eamon

  • Publisher : Woodhead Publishing
  • Release : 2017-02-21
  • Pages : 340
  • ISBN : 0081006411
  • Language : En, Es, Fr & De
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Strengthening of Concrete Structures Using Fiber Reinforced Polymers (FRP): Design, Construction and Practical Applications presents a best practice guide on the structural design and strengthening of bridge structures using advanced Fiber Reinforced Polymer (FRP) composites. The book briefly covers the basic concepts of FRP materials and composite mechanics, while focusing on practical design and construction issues, including inspection and quality control, paying special attention to the differences in various design codes (US, Japan, and Europe) and recommendations. At present, several design guides from the US, Japan, and Europe are available. These guidelines are often inconsistent and do not cover all necessary design and inspection issues to the same degree of detail. This book provides a critical review and comparison of these guidelines, and then puts forward best practice recommendations, filling a significant gap in the literature, and serving as an important resource for engineers, architects, academics, and students interested in FRP materials and their structural applications. Written from a practitioner's point-of-view, it is a valuable design book for structural engineers all over the world. Includes a large quantity of design examples and structural software to facilitate learning and help readers perform routine design Provides recommendations for best practices in design and construction for the strengthening of bridge structures using advanced fiber-reinforced polymer (FRP) composites Presents comprehensive guidelines on design, inspection, and quality control, including laboratory and field testing information

Strengthening Reinforced Concrete Structures with Externally Bonded Fibre Reinforced Polymers

Strengthening Reinforced Concrete Structures with Externally Bonded Fibre Reinforced Polymers
A Book

by Kenneth W. Neale,ISIS Canada

  • Publisher : Unknown Publisher
  • Release : 2001
  • Pages : 215
  • ISBN : 9780968900703
  • Language : En, Es, Fr & De
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Strengthening of Reinforced Concrete Structures

Strengthening of Reinforced Concrete Structures
Using Externally-Bonded FRP Composites in Structural and Civil Engineering

by Len C. Hollaway,Mike B. Leeming

  • Publisher : CRC Press
  • Release : 1999-04-09
  • Pages : 352
  • ISBN : 9780849317156
  • Language : En, Es, Fr & De
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The in situ rehabilitation or upgrading of reinforced concrete members using bonded steel plates is an effective, convenient, and economic method of improving structural performance. However, disadvantages inherent in the use of steel have stimulated research into using fiber reinforced polymer (FRP) material in its place, with the goal of providing a non-corrosive, more versatile strengthening system. Strengthening of Reinforced Concrete Structures presents a detailed study of the flexural strengthening of reinforced and prestressed concrete members using FRP composite plates. This book covers short and long term performance through model and full-scale experimental testing plus theoretical and numerical considerations. It discusses previous investigative and site work undertaken to strengthen concrete beams using steel bonded pates and the pros and cons of using the steel and composite plate materials. It also presents case histories of construction members upgraded or strengthened using carbon fibre/polymer matrix composite materials bonded to the structural unit. A consortium of academic and industrial researchers provided much of the data and contributed the chapters to this volume. The research and trial tests were undertaken as part of the United Kingdom's ROBUST project. Strengthening of Reinforced Concrete Structures serves to disseminate the large amount of information that resulted from these studies. As detailed in this book, their results will serve to help generate and formulate design specifications as engineers continue to apply these important techniques to an ever-widening range of applications.

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

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

by L C Hollaway,J G Teng

  • Publisher : Elsevier
  • Release : 2008-07-18
  • Pages : 416
  • ISBN : 1845694899
  • Language : En, Es, Fr & De
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The repair of deteriorated, damaged and substandard civil infrastructures has become one of the most important issues for the civil engineer worldwide. This important 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 behaviour, 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 is 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. 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

Developments in fiber-reinforced polymer (FRP) composites for civil engineering

Developments in fiber-reinforced polymer (FRP) composites for civil engineering
6. Assessing the durability of the interface between fiber-reinforced polymer (FRP) composites and concrete in the rehabilitation of reinforced concrete structures

by J. Wang

  • Publisher : Elsevier Inc. Chapters
  • Release : 2013-05-15
  • Pages : 558
  • ISBN : 0128087692
  • Language : En, Es, Fr & De
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Strengthening reinforced concrete (RC) members using fiber reinforced polymer (FRP) composites through external bonding has emerged as a viable technique to retrofit/repair deteriorated infrastructure. The interface between the FRP and concrete plays a critical role in this technique. This chapter discusses the analytical and experimental methods used to examine the integrity and long-term durability of this interface. Interface stress models, including the commonly adopted two-parameter elastic foundation model and a novel three-parameter elastic foundation model (3PEF) are first presented, which can be used as general tools to analyze and evaluate the design of the FRP strengthening system. Then two interface fracture models – linear elastic fracture mechanics and cohesive zone model – are established to analyze the potential and full debonding process of the FRP–concrete interface. Under the synergistic effects of the service loads and environments species, the FRP–concrete interface experiences deterioration, which may reduce its long-term durability. A novel experimental method, environment-assisted subcritical debonding testing, is then introduced to evaluate this deteriorating process. The existing small cracks along the FRP–concrete interface can grow slowly even if the mechanical load is lower than the critical value. This slow-crack growth process is known as environment-assisted subcritical cracking. A series of subcritical cracking tests are conducted using a wedge-driven test setup t o gain the ability to accurately predict the long-term durability of the FRP–concrete interface.

Fibre-Reinforced Polymer Reinforcement for Concrete Structures

Fibre-Reinforced Polymer Reinforcement for Concrete Structures
Proceedings of the Sixth International Symposium on FRP Reinforcement for Concrete Structures (FRPRCS-6) Singapore 8 - 10 July 2003

by Kiang Hwee Tan

  • Publisher : World Scientific
  • Release : 2003
  • Pages : 1528
  • ISBN : 9812384014
  • Language : En, Es, Fr & De
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Fibre-reinforced polymer (FRP) reinforcement has been used in construction as either internal or external reinforcement for concrete structures in the past decade. This book provides the latest research findings related to the development, design and application of FRP reinforcement in new construction and rehabilitation works. The topics include FRP properties and bond behaviour, externally bonded reinforcement for flexure, shear and confinement, FRP structural shapes, durability, member behaviour under sustained loads, fatigue loads and blast loads, prestressed FRP tendons, structural strengthening applications, case studies, and codes and standards.

Rehabilitation of Concrete Structures with Fiber-Reinforced Polymer

Rehabilitation of Concrete Structures with Fiber-Reinforced Polymer
A Book

by Riadh Al-Mahaidi,Robin Kalfat

  • Publisher : Butterworth-Heinemann
  • Release : 2018-11-12
  • Pages : 413
  • ISBN : 0128115114
  • Language : En, Es, Fr & De
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Rehabilitation of Concrete Structures with Fiber Reinforced Polymer is a complete guide to the use of FRP in flexural, shear and axial strengthening of concrete structures. Through worked design examples, the authors guide readers through the details of usage, including anchorage systems, different materials and methods of repairing concrete structures using these techniques. Topics include the usage of FRP in concrete structure repair, concrete structural deterioration and rehabilitation, methods of structural rehabilitation and strengthening, a review of the design basis for FRP systems, including strengthening limits, fire endurance, and environmental considerations. In addition, readers will find sections on the strengthening of members under flexural stress, including failure modes, design procedures, examples and anchorage detailing, and sections on shear and torsion stress, axial strengthening, the installation of FRP systems, and strengthening against extreme loads, such as earthquakes and fire, amongst other important topics. Presents worked design examples covering flexural, shear, and axial strengthening Includes complete coverage of FRP in Concrete Repair Explores the most recent guidelines (ACI440.2, 2017; AS5100.8, 2017 and Concrete society technical report no. 55, 2012)

Design Procedures for the Use of Composites in Strengthening of Reinforced Concrete Structures

Design Procedures for the Use of Composites in Strengthening of Reinforced Concrete Structures
State-of-the-Art Report of the RILEM Technical Committee 234-DUC

by Carlo Pellegrino,José Sena-Cruz

  • Publisher : Springer
  • Release : 2015-08-25
  • Pages : 392
  • ISBN : 940177336X
  • Language : En, Es, Fr & De
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This book analyses the current knowledge on structural behaviour of RC elements and structures strengthened with composite materials (experimental, analytical and numerical approaches for EBR and NSM), particularly in relation to the above topics, and the comparison of the predictions of the current available codes/recommendations/guidelines with selected experimental results. The book shows possible critical issues (discrepancies, lacunae, relevant parameters, test procedures, etc.) related to current code predictions or to evaluate their reliability, in order to develop more uniform methods and basic rules for design and control of FRP strengthened RC structures. General problems/critical issues are clarified on the basis of the actual experiences, detect discrepancies in existing codes, lacunae in knowledge and, concerning these identified subjects, provide proposals for improvements. The book will help to contribute to promote and consolidate a more qualified and conscious approach towards rehabilitation and strengthening existing RC structures with composites and their possible monitoring.

Performance of Concrete Panels Strengthened Using Carbon Fiber Reinforced Polymers (CFRP)

Performance of Concrete Panels Strengthened Using Carbon Fiber Reinforced Polymers (CFRP)
A Book

by Chang Hyuk Kim

  • Publisher : Unknown Publisher
  • Release : 2014
  • Pages : 276
  • ISBN : 9876543210XXX
  • Language : En, Es, Fr & De
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Many bridges are handling heavier loads than those expected at design, making it increasingly necessary to strengthen existing members or conduct repairs on damaged structural members. Carbon Fiber Reinforced Polymer (CFRP) materials have been broadly used to repair and strengthen reinforced concrete structures. Using CFRP materials as the strengthening material is an excellent solution because of their mechanical properties. CFRP has properties of high strength, corrosion resistance, and light weight. CFRP materials are being widely used for shear and flexural strengthening. Most studies have focused on uni-directional layout of CFRP strips in high shear regions of beams. Recent shear tests on full-scale I-girders have shown that the use of bi-directional CFRP layouts with CFRP anchors led to much higher shear strength increases than when using uni-directional layouts. The objective of the study is to determine the mechanism that governs shear strengthening of bridge girders using bi-directional CFRP and, in doing so, demonstrate the feasibility of using bi-directional CFRP for shear strengthening of large bridge I- and U-beams. Small-scale panel tests have been conducted to investigate parameters that influence the shear strength provided by bi-directional CFRP layouts. Panels were tested under compressive forces to simulate the compression struts that develop in the webs of I-beams. The applied loads generated bottle-shaped compressive struts. CFRP anchors were used to prevent early failure due to CFRP strip delamination from the panel surface. The panels, while not fully reproducing the boundary condition of girder webs, were tested ahead of full-scale girders to investigate a wide range of parameters in a cost-effective manner. The variables considered include the amount of CFRP and steel reinforcement, the inclination of CFRP fibers, and the layout and spacing of CFRP strips. The panel tests provide qualitative comparisons between the influence of the various parameters. The relative strength contributions of CFRP strips, steel stirrups, and concrete were evaluated.

ANALYSIS AND DESIGN OF FRP REINFORCED

ANALYSIS AND DESIGN OF FRP REINFORCED
A Book

by Shamsher Bahadur Singh

  • Publisher : McGraw-Hill Education
  • Release : 2022
  • Pages : 129
  • ISBN : 1259058913
  • Language : En, Es, Fr & De
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?With the advent of advanced composite materials in the form of fiber reinforced polymer (FRP), these innovative FRP materials have been utilized across the world as internal reinforcements, external reinforcements, and prestressing tendons/strands. The research carried out on FRP materials have revealed their potential as efficient construction materials requiring least maintenance and minimal life cycle cost. In addition, FRP also finds usage as external strengthening material in deficient structures and for upgrading the strength of structures to meet new requirements. This book presents various aspects of FRP composite materials, their characteristics, manufacturing techniques, real-life projects, different forms of FRP products and, most importantly, detailed procedures for designing new structures using FRP as internal reinforcements, external strengthening materials, and prestressing materials. The main topics covered: introduction of FRP composites? material characteristics? history and uses of FRP technology? design of RC structures using FRP bars? design philosophy for FRP external strengthening systems? durability-based design approach for external FRP strengthening of RC beams Alongside case study problems, for example, on FRP prestressed concrete bridges, this book comes equipped with ample exercise problems and design examples. As a consolidated source of design guidelines and design examples on FRP reinforced and/or prestressed concrete structures, this book will be of prime interest to a wide range of readers including researchers, academicians in general, consultants, practitioners, designers, writers of design codes, structural engineers, and senior undergraduate and graduate students.

Advanced fibre-reinforced polymer (FRP) composites for structural applications

Advanced fibre-reinforced polymer (FRP) composites for structural applications
22. Advanced fibre-reinforced polymer (FRP) composites for the rehabilitation of timber and concrete structures: assessing strength and durability

by J. Custódio,S. Cabral-Fonseca

  • Publisher : Elsevier Inc. Chapters
  • Release : 2013-09-30
  • Pages : 928
  • ISBN : 0128088524
  • Language : En, Es, Fr & De
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This chapter briefly discusses the performance and durability of bonded composite systems used for on-site rehabilitation of timber and concrete structures. In spite of some recent developments, the exploitation of their full potential is still often restrained by the lack of structural design guidance, standards for durability assessment and on-site acceptance testing. Therefore, this chapter provides a review of current understanding on the use of hybrid bonded composite systems on the construction site in terms of structural repair, reinforcement, and seismic retrofit. It focuses on the requirements and practical difficulties in the work on-site with regards to the performance and durability of the rehabilitated structure, the characteristics and requirements that must be fulfilled by structural adhesives and advanced polymer composite materials, and the subsequent need for quality control and in-service monitoring. It also highlights the factors affecting performance and durability of bonded joints. Finally, a general overview of the research needs and a bibliography giving references to more detailed information on this topic is given.

Design of FRP Systems for Strengthening Concrete Girders in Shear

Design of FRP Systems for Strengthening Concrete Girders in Shear
A Book

by Abdeldjelil Belarbi

  • Publisher : Transportation Research Board
  • Release : 2011-01-01
  • Pages : 120
  • ISBN : 0309155312
  • Language : En, Es, Fr & De
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TRB's National Cooperative Highway Research Program (NCHRP) Report 678: Design of FRP Systems for Strengthening Concrete Girders in Shear offers suggested design guidelines for concrete girders strengthened in shear using externally bonded Fiber-Reinforced Polymer (FRP) systems. The guidelines address the strengthening schemes and application of the FRP systems and their contribution to shear capacity of reinforced and prestressed concrete girders. The guidelines are supplemented by design examples to illustrate their use for concrete beams strengthened with different FRP systems. Appendix A of NCHRP Report 678, which contains the research agency's final report, provides further elaboration on the work performed in this project. Appendix A: Research Description and Findings, is only available online.

Flexural Retrofitting of Reinforced Concrete Structures Using Green Natural Fiber Reinforced Polymer Plates

Flexural Retrofitting of Reinforced Concrete Structures Using Green Natural Fiber Reinforced Polymer Plates
A Book

by Ignacio Cervantes

  • Publisher : Unknown Publisher
  • Release : 2013
  • Pages : 424
  • ISBN : 9781303795756
  • Language : En, Es, Fr & De
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Abstract: An experimental study will be carried out to determine the suitability of Green Natural Fiber Reinforced Polymer plates (GNFRP) manufactured with hemp fibers, with the purpose of using them as structural materials for the flexural strengthening of reinforced concrete (RC) beams. Four identical RC beams, 96 inches long, are tested for the investigation, three control beams and one test beam. The first three beams are used as references; one unreinforced, one with one layer of Carbon Fiber Reinforced Polymer (CFRP), one with two layers of CFRP, and one with n layers of the proposed, environmental-friendly, GNFRP plates. The goal is to determine the number of GNFRP layers needed to match the strength reached with one layer of CFRP and once matched, assess if the system is less expensive than CFRP strengthening, if this is the case, this strengthening system could be an alternative to the currently used, expensive CFRP systems.

Shear Strengthening of Reinforced Concrete Beams Using Fiber-Reinforced Polymer Wraps

Shear Strengthening of Reinforced Concrete Beams Using Fiber-Reinforced Polymer Wraps
A Book

by Anonim

  • Publisher : DIANE Publishing
  • Release : 2022
  • Pages : 129
  • ISBN : 1428913084
  • Language : En, Es, Fr & De
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Seismic Strengthening of Concrete Buildings Using FRP Composites

Seismic Strengthening of Concrete Buildings Using FRP Composites
A Book

by Anonim

  • Publisher : American Concrete Institute
  • Release : 2008
  • Pages : 129
  • ISBN : 0870313134
  • Language : En, Es, Fr & De
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"This CD-ROM consists of eight papers that were presented by ACI Committee 440 at the Spring Convention in Atlanta, GA, in April 2007" -- Site Web de l'éditeur.

FRP Composites

FRP Composites
Life Extension and Strengthening of Metallic Structures

by S. S. J. Moy

  • Publisher : Thomas Telford
  • Release : 2001
  • Pages : 64
  • ISBN : 9780727730091
  • Language : En, Es, Fr & De
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- Introduction - Design specification - Design process overview - Design of composite - Structural design - Implementation - Tests - Verification - Monitoring - References Reviews Fibre reinforced polymer (FRP) composites have been used for many years in the aircraft and shipbuilding industries. They are now being used in a variety of construction applications where their light weight, high strength, stiffness, durability, and ease of installation makes them cost effective. This is particularly true in the repair and rehabilitation of existing infrastructure. This book provides design guidance on the use of fibre reinforced polymer composites, based on the results of two major programmes funded by the DETR. The book demonstrates that fibre reinforced polymer composites can be used with complete confidence in structural applications. Likewise, guidance is given on short-term and long-term behaviour and how this can be interpreted within a factual design situation. Also included are case studies of projects on the London Underground network, alongside contributions from industry research groups. FRP composites can offer a performance or cost benefit over traditional solutions. As there are no official standards for this type of work, this first attempt at producing design recommendations will be a vital resource for structural engineers. Quality Concrete, October 2001

Flexural Strengthening of Reinforced Concrete Beams with Prestressed FRP Laminates

Flexural Strengthening of Reinforced Concrete Beams with Prestressed FRP Laminates
A Book

by An The Vinh,Carlo Pellegrino,Università degli studi di Padova,Escola Tècnica Superior d'Enginyers de Camins, Canals i Ports de Barcelona,Universitat Politècnica de Catalunya. Departament d'Enginyeria de la Construcció

  • Publisher : Unknown Publisher
  • Release : 2009
  • Pages : 58
  • ISBN : 9876543210XXX
  • Language : En, Es, Fr & De
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Retrofitting concrete structures with bonded fiber reinforced polymer (FRP) has grown to be a widely used method in all most parts of the world today. The main reason for the widespread application of FRP is that it is possible to obtain an effective strengthening with a relative small work effort. Furthermore, it is possible to carry out strengthening work without changing the current appearance or dimension of the structures. However, in most cases the bonded FRP materials are unstressed. If prestressing could be applied, better utilization of the strengthening material and a better strengthening result would most likely be achieved. Increasing research is carried out in the area of repair and upgrading of concrete structures with prestressed CFRP (Carbon Fiber Reinforced Polymers) materials. In this study, the flexural performance of reinforced concrete beams strengthened with CFRP plates using FRP bonding and prestressed FRP bonding has been mainly discussed by means of a Finite Element analysis.

Composites for Construction

Composites for Construction
Structural Design with FRP Materials

by Lawrence C. Bank

  • Publisher : John Wiley & Sons
  • Release : 2006-07-21
  • Pages : 551
  • ISBN : 0471681261
  • Language : En, Es, Fr & De
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This text teaches readers how to analyse and design with fiber reinforced polymers (FRP) for civil engineering applications. It demystifies FRP composites and demonstrates applications where their properties make them ideal materials to consider off-shore and waterfront structures, factories, and storage tanks.

Seismic Assessment and Retrofit of Reinforced Concrete Buildings

Seismic Assessment and Retrofit of Reinforced Concrete Buildings
State-of-the-art report

by fib Fédération internationale du béton

  • Publisher : fib Fédération internationale du béton
  • Release : 2003-08-01
  • Pages : 312
  • ISBN : 9782883940642
  • Language : En, Es, Fr & De
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In most parts of the developed world, the building stock and the civil infrastructure are ageing and in constant need of maintenance, repair and upgrading. Moreover, in the light of our current knowledge and of modern codes, the majority of buildings stock and other types of structures in many parts of the world are substandard and deficient. This is especially so in earthquake-prone regions, as, even there, seismic design of structures is relatively recent. In those regions the major part of the seismic threat to human life and property comes from old buildings. Due to the infrastructure's increasing decay, frequently combined with the need for structural upgrading to meet more stringent design requirements (especially against seismic loads), structural retrofitting is becoming more and more important and receives today considerable emphasis throughout the world. In response to this need, a major part of the fib Model Code 2005, currently under development, is being devoted to structural conservation and maintenance. More importantly, in recognition of the importance of the seismic threat arising from existing substandard buildings, the first standards for structural upgrading to be promoted by the international engineering community and by regulatory authorities alike are for seismic rehabilitation of buildings. This is the case, for example, of Part 3: Strengthening and Repair of Buildings of Eurocode 8 (i. e. of the draft European Standard for earthquake-resistant design), and which is the only one among the current (2003) set of 58 Eurocodes attempting to address the problem of structural upgrading. It is also the case of the recent (2001) ASCE draft standard on Seismic evaluation of existing buildings and of the 1996 Law for promotion of seismic strengthening of existing reinforced concrete structures in Japan. As noted in Chapter 1 of this Bulletin, fib - as CEB and FIP did before - has placed considerable emphasis on assessment and rehabilitation of existing structures. The present Bulletin is a culmination of this effort in the special but very important field of seismic assessment and rehabilitation. It has been elaborated over a period of 4 years by Task Group 7.1 Assessment and retrofit of existing structures of fib Commission 7 Seismic design, a truly international team of experts, representing the expertise and experience of all the important seismic regions of the world. In the course of its work the team had six plenary two-day meetings: in January 1999 in Pavia, Italy; in August 1999 in Raleigh, North Carolina; in February 2000 in Queenstown, New Zealand; in July 2000 in Patras, Greece; in March 2001 in Lausanne, Switzerland; and in August 2001 in Seattle, Washington. In October 2002 the final draft of the Bulletin was presented to public during the 1st fib Congress in Osaka. It was also there that it was approved by fib Commission 7 Seismic Design. The contents is structured into main chapters as follows: 1 Introduction - 2 Performance objectives and system considerations - 3 Review of seismic assessment procedures - 4 Strength and deformation capacity of non-seismically detailed components - 5 Seismic retrofitting techniques - 6 Probabilistic concepts and methods - 7 Case studies

FRP Composites in Civil Engineering

FRP Composites in Civil Engineering
Proceedings of the International Conference on FRP Composites in Civil Engineering, 12-15 December 2001, Hong Kong, China

by Jin-Guang Teng

  • Publisher : Taylor & Francis
  • Release : 2001-11-29
  • Pages : 1798
  • ISBN : 9780080439457
  • Language : En, Es, Fr & De
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This Proceedings contains the papers presented at the International Conference on FRP Composites in Civil Engineering, held in Hong Kong, China, on 12-15 December 2001. The papers, contributed from 24 countries, cover a wide spectrum of topics and demonstrate the recent advances in the application of FRP (Fibre-reinforced polymer) composites in civil engineering, while pointing to future directions of research in this exciting area.