Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM)
Based on the high-fidelity physics based models (HFPBMs) described in report D3, mass runs have been carried out for parametric studies to investigate the influence of material properties and structural parameters on the behaviour of FRP-strengthened RC walls subject to near-field blast effects and...
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2020
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sg-ntu-dr.10356-1382372021-11-09T03:10:07Z Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) Fung, Tat Ching Tan, Kang Hai Werner Riedel Yu, Qingjun Del Linz, Paolo Li, Gen Tu, Huan Fung Tat Ching School of Civil and Environmental Engineering DSTA Protective Technology Research Centre Tan, Kang Hai CTCFUNG@ntu.edu.sg CTCFUNG@ntu.edu.sg Engineering::Civil engineering::Structures and design Engineering::Materials::Composite materials Based on the high-fidelity physics based models (HFPBMs) described in report D3, mass runs have been carried out for parametric studies to investigate the influence of material properties and structural parameters on the behaviour of FRP-strengthened RC walls subject to near-field blast effects and fragment loading. Following this, the results obtained from the mass runs have been analyzed using artificial neural network (ANN) methods to develop FRM (Fast running model). Based on the FRM, analysis tools have been developed and preliminary design guidelines are being proposed. 2020-04-29T07:29:39Z 2020-04-29T07:29:39Z 2018 Research Report Fung, T. C., Tan, K. H., Werner Riedel, Yu, Q., Del Linz, P., Li, G. & Tu, H. (2018). Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM). Modelling of fibre-reinforced polymer (FRP) strengthened reinforced concrete walls subject to blast and fragment loadings/D4, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/138237 https://hdl.handle.net/10356/138237 en Modelling of fibre-reinforced polymer (FRP) strengthened reinforced concrete walls subject to blast and fragment loadings Modelling of fibre-reinforced polymer (FRP) strengthened reinforced concrete walls subject to blast and fragment loadings/D4 10.21979/N9/WBHSTG application/pdf Nanyang Technological University |
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Engineering::Civil engineering::Structures and design Engineering::Materials::Composite materials Fung, Tat Ching Tan, Kang Hai Werner Riedel Yu, Qingjun Del Linz, Paolo Li, Gen Tu, Huan Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
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Based on the high-fidelity physics based models (HFPBMs) described in report D3, mass runs have been carried out for parametric studies to investigate the influence of material properties and structural parameters on the behaviour of FRP-strengthened RC walls subject to near-field blast effects and fragment loading. Following this, the results obtained from the mass runs have been analyzed using artificial neural network (ANN) methods to develop FRM (Fast running model). Based on the FRM, analysis tools have been developed and preliminary design guidelines are being proposed. |
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Fung Tat Ching |
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Fung Tat Ching Fung, Tat Ching Tan, Kang Hai Werner Riedel Yu, Qingjun Del Linz, Paolo Li, Gen Tu, Huan |
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Research Report |
author |
Fung, Tat Ching Tan, Kang Hai Werner Riedel Yu, Qingjun Del Linz, Paolo Li, Gen Tu, Huan |
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Fung, Tat Ching |
title |
Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
title_short |
Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
title_full |
Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
title_fullStr |
Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
title_full_unstemmed |
Parametric studies on the behaviour of FRP-strengthened RC wall subject to near-field blast effects and fragment loading and development of fast running model (FRM) |
title_sort |
parametric studies on the behaviour of frp-strengthened rc wall subject to near-field blast effects and fragment loading and development of fast running model (frm) |
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Nanyang Technological University |
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2020 |
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https://hdl.handle.net/10356/138237 |
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1718368041782214656 |