Nurjaman, Hari Nugraha and Wantoro, A and Dharmawan, Y and Boediono, B and Tjiptohardojo, C A and Barus, D L and Duan, S and Guo, M and Hariandja, B. and Faizal, L. and Suwito, Suwito and Dinariana, Dwi HASIL TURNITIN : DEVELOPMENT SEISMIC DESIGN STANDARDS FOR REHABILITATION OF BUILDINGS AFFECTED BY EARTHQUAKE USING DAMPER TECHNOLOGY. The 17th World Conference on Earthquake Engineering. (Unpublished)
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DEVELOPMENT SEISMIC DESIGN STANDARDS FOR REHABILITATION OF BUILDINGS AFFECTED BY EARTHQUAKE USING DAMPER TECHNOLOGY.pdf Download (5MB) |
Abstract
Since strong earthquake and tsunami took place in Aceh 2004, the frequency of strong earthquakes has increased significantly in several regions in Indonesia. Researches on seismicity and earthquake engineering conducted since 2004 generally result in higher design seismic load in several region in Indonesia and stringent requirements of design standard. This condition means that many buildings that were built before the latest seismic design standard would fail to meet its performance requirements. These buildings, especially important public buildings such as government buildings, schools, hospitals and shopping centers, need technology to improve their structural performances against earthquake with minimal changing to their existing structures. Damper technology is one of such technologies that can dissipate additional earthquake load due to standard design revision. Moreover, in 2019, Indonesia Government planned to begin including damper technology in its seismic design code by adopting ASCE7-16. This study will present part of results from research related to implementation of damper technology in building that will be conducted in 3 year span. In the first year (2019), research focused on the selection of damper technology that is effective in improving seismic performance and has the potential economically to be manufactured in Indonesia. To determine the effectiveness of a damper technology in improving structural performance against earthquake load, a case study illustrating the process and decision regarding rehabilitation of a government office building in city of Palu that was recently struck by earthquake of magnitude M = 7.4 on September 28, 2018, will be conducted. A series of response history analyses will be carried out on rehabilitated structure of building used as the case study. In the second year (2020), the selected damper technology will be installed in model structure and will be tested on shaking table to verify its seismic structural performance and to establish Indonesian National Standard for the product. And in the final year (2021), production of damper product in Indonesia will be started and finalization of seismic design standard of building using damper technology will be conducted. The developed seismic design standard can then be used for designing either new building or retrofitting of existing building to achieve latest requirements or restoration of seismic performance of building impacted by earthquake.
| Item Type: | Other |
|---|---|
| Subjects: | T Technology > TA Engineering (General). Civil engineering (General) |
| Divisions: | Faculty of Engineering, Science and Mathematics > School of Civil Engineering and the Environment |
| Depositing User: | Dr. Ir. Dwi Dinariana MT |
| Date Deposited: | 14 Mar 2024 02:56 |
| Last Modified: | 14 Mar 2024 02:56 |
| URI: | http://repository.upi-yai.ac.id/id/eprint/10997 |
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