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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aFRP-strengthened metallic structures /$fXiao-Ling Zhao
210  1$aBoca Raton :$cCRC Press,$d2014.
215   $a1 online resource (280 p.)
225 0 $aSpon research FRP-strengthened metallic structures 
300   $aDescription based upon print version of record.
311   $a1-322-66664-4 
311   $a0-203-89521-5 
320   $aIncludes bibliographical references.
327   $aFront Cover; Contents; Preface; Acknowledgments; Notation; Author; Chapter 1 - Introduction; Chapter 2 - FRP composites and metals; Chapter 3 - Behaviour of the bond between FRP and metal; Chapter 4 - Flexural strengthening of steel and steel-concrete composite beams with FRP laminates; Chapter 5 - Strengthening of compression members; Chapter 6 - Strengthening of web crippling of beams subject to end bearing forces; Chapter 7 - Enhancement of fatigue performance; Back Cover
330   $aThis book comprehensively covers the behavior and design of fiber reinforced polymer strengthened metallic structures based on existing international research. It begins by outlining the applications, existing design guidance, and the special characteristics of FRP composites within the context of their use in the strengthening of metallic structures. It addresses the bond behavior between FRP and metal, and the strengthening of members, then looks at bending, compression and concentrated forces, and the improvement of fatigue performance. It serves as a detailed resource for engineers, researchers, and graduate students--$cProvided by publisher.
330   $aPreface A significant amount of metallic structures are aging. The conventional method of repairing or strengthening aging metallic structures often involves bulky and heavy plates that are difficult to fix and prone to corrosion, as well as to their own fatigue. Fibre-reinforced polymer (FRP) has great potential in strengthening metallic structures, such as bridges, buildings, offshore platforms, pipelines, and crane structures. The existing knowledge of the carbon fibre-reinforced polymer (CFRP)- concrete composite system may not be applicable to the CFRP-steel system because of the distinct difference between the debonding mechanism of the former and latter, alongside the unique failure modes for steel members and connections. Several design and practice guides on FRP strengthening of metallic structures were published in the UK, United States, Italy, and Japan. However, the following topics are not covered in detail: bond behaviour between FRP and steel, strengthening of compression members, strengthening of steel tubular members, strengthening against web crippling of steel sections, and strengthening for enhanced fatigue and seismic performance. The present book not only contains descriptions and explanations of basic concepts and summarises the research performed to date on the FRP strengthening of metallic structures, but also provides some design recommendations. Comprehensive, topical references appear throughout the book. It is suitable for structural engineers, researchers, and university students who are interested in the FRP strengthening technique--$cProvided by publisher.
410  0$aSpon research.
606   $aBuilding, Iron and steel$xMaterials
606   $aBuildings$xMaintenance$xMaterials
606   $aFiber-reinforced plastics
606   $aAdhesives
615  0$aBuilding, Iron and steel$xMaterials.
615  0$aBuildings$xMaintenance$xMaterials.
615  0$aFiber-reinforced plastics.
615  0$aAdhesives.
676   $a624.1/8923
676   $a624.182
676   $a624.18923
686   $aTEC009020$aTEC021000$aTEC063000$2bisacsh
700   $aZhao$b Xiao-Ling$0627390
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910787583303321
996   $aFRP-strengthened metallic structures$93833667
997   $aUNINA