Title: Modelling of time-dependent bonding and debonding in structures externally strengthened with fibre reinforced polymer sheets
Authors: Zhishen Wu, Hesham Diab
Addresses: Urban and Civil Engineering Department, Ibaraki University, Japan. ' Civil Engineering Department, Assiut University, Egypt
Abstract: The use of fibre reinforced polymers (FRPs) as externally bonded reinforcements has gained widespread acceptance as an innovative technique for the maintenance, rehabilitation and upgrading of existing concrete structures. Significant enhancements in stiffness, strength and seismic performance of the structures can be achieved by this technique. Among extensive research efforts which have been paid worldwide, the author|s research group at Ibaraki University in Japan has greatly contributed in this field. Although short-term behaviour of FRP-strengthened structures is intensively reported thus far, their long-term performance has not thoroughly elucidated yet. This paper presents the recent development in the long-term behaviour of concrete structures externally strengthened with FRP, particularly focusing on the FRP-concrete interface subjected to sustain and fatigue loads. Some suitable time-dependent models for creep and fatigue loading are also introduced. This review paper covers also a comparison between available guidelines and recommendations with the experimental results of time-dependent loading.
Keywords: FRP-concrete interface; fatigue; creep; viscoelastic models; endurance limit; fibre reinforced polymers; time dependency; bonding; debonding; concrete structures; reinforced concrete; modelling.
DOI: 10.1504/IJMIC.2009.027075
International Journal of Modelling, Identification and Control, 2009 Vol.7 No.2, pp.199 - 208
Published online: 14 Jul 2009 *
Full-text access for editors Full-text access for subscribers Purchase this article Comment on this article