Abstract
Efficient transfer of load between concrete substrate and fibre reinforced polymer (FRP) by the bonding agent is the key factor in any FRP strengthening system. An innovative high-strength self-compacting non-polymer cementitious adhesive (IHSSC-CA) was recently developed by the authors and has been used in a number of studies. Graphene oxide and cementitious materials are used to synthesise the new adhesive. The successful implementation of IHSSC-CA significantly increases carbon FRP (CFRP) strip utilization and the load-bearing capacity of the near-surface mounted (NSM) CFRP strengthening system. A number of tests were used to inspect the interfacial zone in the bonding area of NSM CFRP strips, including physical examination, pore structure analysis, and three-dimensional laser profilometery analysis. It was deduced from the physical inspection of NSM CFRP specimens made with IHSSC-CA that a smooth surface for load transfer was found in the CFRP strip without stress concentrations in some local regions. A smooth surface of the adhesive layer is very important for preventing localized brittle failure in the concrete. The pore structure analysis also confirmed that IHSSC-CA has better composite action between NSM CFRP strips and concrete substrate than other adhesives, resulting in the NSM CFRP specimens made with IHSSC-CA sustaining a greater load. Finally, the results of three-dimensional laser profilometery revealed a greater degree of roughness and less deformation on the surface of the CFRP strip when IHSSC-CA was used compared to other adhesives.
Highlights
Two-component epoxy resin organic adhesives are most frequently used for adhering fibre reinforced polymer (FRP) to reinforced concrete (RC) structural members, as the adhesive has a key role in any strengthening technique for RC structures
The polymer based-cement adhesive (PCA) and PCA-SG specimens failed by pull-out of carbon FRP (CFRP) strips and no cracks were observed on the concrete surfaces (Figure 5b)
Several tests were conducted on CFRP strips after direct pull-out tests to investigate the effects of bond system properties
Summary
Two-component epoxy resin organic adhesives are most frequently used for adhering FRP to reinforced concrete (RC) structural members, as the adhesive has a key role in any strengthening technique for RC structures. Specimens have been tested under different conditions: cementitious adhesive (IHSSC-CA) has been developed and used in the fabrication of many NSM-CFRP fire, static and fatigue loading. NSM specimens were tested for each typeof of adhesives (IHSSC-CA, polymer cement and epoxy). The self-consolidation property of IHSSC-CA avoids the formation of air voids inside the groove, which may affect the bond between the CFRP strip and the concrete substrate.
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