Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading
Tensile (mode I) fracture between fibre reinforced polymer (FRP) and concrete is found in the FRP strengthened reinforced concrete (RC) structures, especially for structures under dynamic loads. However, currently, there is a lack of studies on the mode I fracture under dynamic loads. The present pr...
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sg-ntu-dr.10356-1436152021-02-05T07:25:15Z Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading Li, Gen Tan, Kang Hai Fung, Tat Ching Del Linz, Paolo School of Civil and Environmental Engineering Singapore Institute of Technology Engineering::Civil engineering FRP Concrete Tensile (mode I) fracture between fibre reinforced polymer (FRP) and concrete is found in the FRP strengthened reinforced concrete (RC) structures, especially for structures under dynamic loads. However, currently, there is a lack of studies on the mode I fracture under dynamic loads. The present programme consisted of two sets of experiments to bridge this gap and to obtain the principal interfacial properties of such fracture. Direct tension tests and notched three-point bending tests were used to determine tensile bond strength and fracture energy of the FRP-concrete interface bond, respectively. Digital image correlation (DIC) measurements were used to characterise the fracture process. It was found that the two bond properties were close to those of plain concrete in the quasi-static regime and showed significant dynamic enhancing effect at a loading rate of 20 mm/s. Dynamic increase factor (DIF) equations for the two bond properties were provided to predict the interfacial response of FRP-concrete bond under dynamic loads. As an application example, the two bond properties were used in finite element simulations of the three-point bending tests. Defence Science and Technology Agency (DSTA) Accepted version The authors acknowledge the research scholarship given by Nanyang Technological University and the research grant of the project “Modelling of Fibre-Reinforced Polymer (FRP) Strengthened Reinforced Concrete Walls subject to Blast and Fragment Loadings” from the Defence Science and Technology Agency (DSTA), Singapore under the Project Agreement (PA) NO: DSTOOOEP016000821. The authors are grateful for their support in this research. 2020-09-14T05:31:24Z 2020-09-14T05:31:24Z 2020 Journal Article Li, G., Tan, K. H., Fung, T. C., & Del Linz, P. (2020). Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading. Composite Structures, 254, 112824-. https://doi.org/10.1016/j.compstruct.2020.112824 112824 https://hdl.handle.net/10356/143615 10.1016/j.compstruct.2020.112824 254 112824 en Composite Structures https://doi.org/10.21979/N9/KAD45L © 2020 Elsevier. All rights reserved. This paper was published in Composite Structures and is made available with permission of Elsevier. application/pdf |
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Engineering::Civil engineering FRP Concrete Li, Gen Tan, Kang Hai Fung, Tat Ching Del Linz, Paolo Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| description |
Tensile (mode I) fracture between fibre reinforced polymer (FRP) and concrete is found in the FRP strengthened reinforced concrete (RC) structures, especially for structures under dynamic loads. However, currently, there is a lack of studies on the mode I fracture under dynamic loads. The present programme consisted of two sets of experiments to bridge this gap and to obtain the principal interfacial properties of such fracture. Direct tension tests and notched three-point bending tests were used to determine tensile bond strength and fracture energy of the FRP-concrete interface bond, respectively. Digital image correlation (DIC) measurements were used to characterise the fracture process. It was found that the two bond properties were close to those of plain concrete in the quasi-static regime and showed significant dynamic enhancing effect at a loading rate of 20 mm/s. Dynamic increase factor (DIF) equations for the two bond properties were provided to predict the interfacial response of FRP-concrete bond under dynamic loads. As an application example, the two bond properties were used in finite element simulations of the three-point bending tests. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Li, Gen Tan, Kang Hai Fung, Tat Ching Del Linz, Paolo |
| format |
Article |
| author |
Li, Gen Tan, Kang Hai Fung, Tat Ching Del Linz, Paolo |
| author_sort |
Li, Gen |
| title |
Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| title_short |
Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| title_full |
Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| title_fullStr |
Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| title_full_unstemmed |
Mode I fracture characterisation of FRP-concrete interfaces under dynamic loading |
| title_sort |
mode i fracture characterisation of frp-concrete interfaces under dynamic loading |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143615 https://doi.org/10.21979/N9/KAD45L |
| _version_ |
1692012926204903424 |