Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom
The severe damage of the precast concrete wall structures recorded in past earthquakes has led to the innovation of the rocking wall concept, which can demonstrate free or minimum damage aftershock of an earthquake. Currently, the application of this innovative structural system has been limited to...
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my-uitm-ir.1021732024-11-19T03:32:37Z Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom 2024 Masrom, Mohd Asha’ari Structural design The severe damage of the precast concrete wall structures recorded in past earthquakes has led to the innovation of the rocking wall concept, which can demonstrate free or minimum damage aftershock of an earthquake. Currently, the application of this innovative structural system has been limited to precast frame structures but lacks in load-bearing structure applications. Thus, this study attempts to extend further the application of rocking walls to the load-bearing structure. The research study generally involves proposing a precast connection, experimental works, analytical formulation and computer analysis using finite element software, which can be managed in four phases. In the first phase, an improvised detail of a semi-rigid connection between the precast rocking wall and the precast floor was proposed for the load-bearing structure prototype. The second phase involves experimental work. A half-scale structural assemblage (consisting of precast rocking-wall and floor plank structures) was prepared and tested under quasi-static out-of-plane lateral cyclic load. The third phase involves the establishment of an analytical formulation for moment-rotation analysis and subsequently validated with the experimental result. Besides that, the sub-assemblage specimen's finite element modelling (FEM) was mutually established in this phase. This FEM investigated the sub-assemblage specimen responses to quasi-static in-plane lateral cyclic load. The fourth phase outlines the conclusions, design recommendations and future possible research. Experimental results demonstrate that the out-of-plane strength of the proposed connection survives without collapse under maximum considered earthquake (MCE). The rocking wall experienced minor damage, while the damaged cracks in the floor plank were unavoidable. There was a good agreement between the analytical formulation for moment-rotation analysis of the proposed connection compared to the experimental result with a percentage difference of less than 10%. The cyclic analyses from the FEM reveal that the base shear and energy dissipation capacity of in-plane loading was larger than that of out-of-plane loading. The in-plane base shear using the proposed semi-rigid connection does not exceed 20% when the surrounding floor plank is incorporated into the rocking wall. Incorporating the floor plank structures into the rocking wall has influenced the initial design calculation, which signifies that the rocking wall system must consider the effect of the surrounding structure in the design calculation. Formation of the intended gap openings in the proposed connection under lateral cyclic drift has improved the seismic performance of precast wall-floor plank connection in load-bearing structures as significant plastic hinge damage in the floor plank was successfully prevented. 2024 Thesis https://ir.uitm.edu.my/id/eprint/102173/ https://ir.uitm.edu.my/id/eprint/102173/1/102173.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) College of Engineering |
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Structural design Masrom, Mohd Asha’ari Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
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The severe damage of the precast concrete wall structures recorded in past earthquakes has led to the innovation of the rocking wall concept, which can demonstrate free or minimum damage aftershock of an earthquake. Currently, the application of this innovative structural system has been limited to precast frame structures but lacks in load-bearing structure applications. Thus, this study attempts to extend further the application of rocking walls to the load-bearing structure. The research study generally involves proposing a precast connection, experimental works, analytical formulation and computer analysis using finite element software, which can be managed in four phases. In the first phase, an improvised detail of a semi-rigid connection between the precast rocking wall and the precast floor was proposed for the load-bearing structure prototype. The second phase involves experimental work. A half-scale structural assemblage (consisting of precast rocking-wall and floor plank structures) was prepared and tested under quasi-static out-of-plane lateral cyclic load. The third phase involves the establishment of an analytical formulation for moment-rotation analysis and subsequently validated with the experimental result. Besides that, the sub-assemblage specimen's finite element modelling (FEM) was mutually established in this phase. This FEM investigated the sub-assemblage specimen responses to quasi-static in-plane lateral cyclic load. The fourth phase outlines the conclusions, design recommendations and future possible research. Experimental results demonstrate that the out-of-plane strength of the proposed connection survives without collapse under maximum considered earthquake (MCE). The rocking wall experienced minor damage, while the damaged cracks in the floor plank were unavoidable. There was a good agreement between the analytical formulation for moment-rotation analysis of the proposed connection compared to the experimental result with a percentage difference of less than 10%. The cyclic analyses from the FEM reveal that the base shear and energy dissipation capacity of in-plane loading was larger than that of out-of-plane loading. The in-plane base shear using the proposed semi-rigid connection does not exceed 20% when the surrounding floor plank is incorporated into the rocking wall. Incorporating the floor plank structures into the rocking wall has influenced the initial design calculation, which signifies that the rocking wall system must consider the effect of the surrounding structure in the design calculation. Formation of the intended gap openings in the proposed connection under lateral cyclic drift has improved the seismic performance of precast wall-floor plank connection in load-bearing structures as significant plastic hinge damage in the floor plank was successfully prevented. |
format |
Thesis |
qualification_name |
Doctor of Philosophy (PhD.) |
qualification_level |
Doctorate |
author |
Masrom, Mohd Asha’ari |
author_facet |
Masrom, Mohd Asha’ari |
author_sort |
Masrom, Mohd Asha’ari |
title |
Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
title_short |
Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
title_full |
Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
title_fullStr |
Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
title_full_unstemmed |
Seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / Mohd Asha’ari Masrom |
title_sort |
seismic performance of rocking wall-floor plank connection in precast load-bearing structures subjected to lateral cyclic load / mohd asha’ari masrom |
granting_institution |
Universiti Teknologi MARA (UiTM) |
granting_department |
College of Engineering |
publishDate |
2024 |
url |
https://ir.uitm.edu.my/id/eprint/102173/1/102173.pdf |
_version_ |
1818588031683133440 |