Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid
The seismic resistance ofa superassemblage of precast hollow core wall units for warehouses is investigated. The superassemblage consists of six prestressed concrete 1.2m wide hollow core units. Two of the units are tied to the foundation via unbonded vertical tendons while the other four units prim...
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2006
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my.uitm.ir.818652023-11-14T08:40:42Z https://ir.uitm.edu.my/id/eprint/81865/ Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid Abdul Hamid, Nor Hayati Building materials The seismic resistance ofa superassemblage of precast hollow core wall units for warehouses is investigated. The superassemblage consists of six prestressed concrete 1.2m wide hollow core units. Two of the units are tied to the foundation via unbonded vertical tendons while the other four units primarily act as "non-structural" cladding. The superassemblage represents the wall of a single storey warehouse type structure. The longitudinal unbonded prestressing tendons consist of regular thread-bars with an in-series portion of those bars possessing a reduced diameter to act as 'fuses ". Prior to testing, the fuse-bars are prestressed to 50% of their yield capacity. The multi-panel wall is tested under several different conditions: in-plane quasi-static reverse cyclic loading with different sizes of fuse-bars; and with and without rubber block spacers and sealant between units. Experimental results demonstrate that smaller diameter fuses lead to superior behaviour, as foundation uplift is inhibited. No structural damage occurs up to the experimental ± 4% drift limit. Some minor non-structural distress is observed to commence with sealant failure at 3% drift. This damage. however, is inexpensive to repair. Results also show that the hysteretic energy absorption that arises from the yielding tendons as well as the interacting rubber spacers and panel sealants provides an equivalent viscous damping factor of 10% at design drift amplitude of 2%. The overall good performance of the multi-panel wall system well satisfies the requirements of an emerging seismic Damage Avoidance Design (DAD) philosophy. 2006 Conference or Workshop Item PeerReviewed text en https://ir.uitm.edu.my/id/eprint/81865/1/81865.PDF Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid. (2006) In: Volume No. 1: Science and Technology, 30 – 31 May 2006, Swiss Garden Resort & Spa Kuantan, Pahang. |
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Building materials Abdul Hamid, Nor Hayati Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
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The seismic resistance ofa superassemblage of precast hollow core wall units for warehouses is investigated. The superassemblage consists of six prestressed concrete 1.2m wide hollow core units. Two of the units are tied to the foundation via unbonded vertical tendons while the other four units primarily act as "non-structural" cladding. The superassemblage represents the wall of a single storey warehouse type structure. The longitudinal unbonded prestressing tendons consist of regular thread-bars with an in-series portion of those bars possessing a reduced diameter to act as 'fuses ". Prior to testing, the fuse-bars are prestressed to 50% of their yield capacity. The multi-panel wall is tested under several different conditions: in-plane quasi-static reverse cyclic loading with different sizes of fuse-bars; and with and without rubber block spacers and sealant between units. Experimental results demonstrate that smaller diameter fuses lead to superior behaviour, as foundation uplift is inhibited. No
structural damage occurs up to the experimental ± 4% drift limit. Some minor non-structural distress is observed to commence with sealant failure at 3% drift. This damage. however, is inexpensive to repair. Results also show that the hysteretic energy absorption that arises from the yielding tendons as well as the interacting rubber spacers and panel sealants provides an equivalent viscous damping factor of 10% at design drift amplitude of 2%. The overall good performance of the multi-panel wall system well satisfies the requirements of an emerging seismic Damage Avoidance Design (DAD) philosophy. |
| format |
Conference or Workshop Item |
| author |
Abdul Hamid, Nor Hayati |
| author_facet |
Abdul Hamid, Nor Hayati |
| author_sort |
Abdul Hamid, Nor Hayati |
| title |
Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
| title_short |
Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
| title_full |
Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
| title_fullStr |
Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
| title_full_unstemmed |
Experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / Nor Hayati Abdul Hamid |
| title_sort |
experimental seismic performance of multi- panel precast hollow core walls in warehouse buildings / nor hayati abdul hamid |
| publishDate |
2006 |
| url |
https://ir.uitm.edu.my/id/eprint/81865/1/81865.PDF https://ir.uitm.edu.my/id/eprint/81865/ |
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1783882197787213824 |
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