Tan, K.T. and Abdul Razak, H. (2011) Assessment of risk to school buildings resulting from distant earthquakes. In: 12th East Asia-Pacific Conference on Structural Engineering and Construction, EASEC12, 2011, Hong Kong.
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Abstract
The effects of far distant earthquakes felt in regions with low and moderate seismicity has increased markedly over the last decade. Henceforth fragility curves in this study are to indicate whether buildings are safe to enter or not after an earthquake event occurring more than 300km away. The probability of light, moderate and severe damage states occurring on two and four storey reinforced concrete buildings up to a peak ground acceleration of 0.2g were predicted. The building models were constructed using finite element software based on eight node brick elements with three degrees of freedom at each node. The analysis was carried out using a dynamic response spectrum to calculate the peak inter-storey drift ratios. For the development of fragility curves, the results were collated following a log-normal mean distribution. The results showed that light damage is likely to occur with a probability of over 10 within a 50 year period, while the existing record is unlikely to cause structural damage. The fragility curves were comparable to those for RC moment resisting frames obtained by (Rossetto and Elnashai 2003) at a lower drift limit, with approximately 2 of inter-storey drift ratio.
| Item Type: | Conference or Workshop Item (Paper) |
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| Funders: | UNSPECIFIED |
| Additional Information: | Conference code: 86909 Export Date: 16 December 2013 Source: Scopus doi: 10.1016/j.proeng.2011.07.276 Language of Original Document: English Correspondence Address: Tan, K.T.; Department of Civil Engineering, University MalayaMalaysia; email: kttan083@yahoo.com References: Adnan, A., Hendriyawan Marto, A., Irsyam, M., Seismic hazard assessment for Peninsular Malaysia using gumbel distribution method (2005) Journal of Technologic from University Technologic Malaysia, 42 (B), pp. 57-73; Hueste, M.B.D., Bai, J.W., Seismic retrofit of a reinforced concrete flat-slab structure: Part ii-seismic fragility analysis (2007) Journal of Structural Engineering, 29 (6), pp. 1178-1188; Kircil, M.S., Polat, Z., Fragility analysis of mid-rise R/C frame buildings (2006) Journal of Engineering Structures, 28 (9), pp. 1335-1345; Kwong, O.S., Elnashai, A., (2007) Probabilistic Seismic Assessment of Structure, Foundation and Soil Interacting Systems, , Newmark Structural Engineering Laboratory Project NSEL-004 report, Department of Civil and Environmental Engineering. University of lllinois at Urbana-Champaign; Petersen, M.D., Dewey, J., Stephan, H., Mueller, C., Harmsen, S., Frankel, A.D., Rukstales, K., Probabilistic seismic hazard analysis for Sumatra, Indonesia and across the Southern Malaysia Peninsula (2004) Journal of Tectonophysics, 390 (1-4), pp. 141-158; Petersen, M.D., Harmsen, S., Mueller, C., Haller, K., Dewey, J., Luco, N., Crone, A., Rukstales, K., (2007) Documentation for the Southeast Asia Seismic Hazard Maps, , http://earthquake.usgs.gov/research/hazmaps/productsdata/, Administrative report from; (2000) Prestandard and Commentary for the Seismic Rehabilitation of Buildings, , Reston and Virginia. Federal Emergency Management Agency; Rossetto, T., Elnashai, A., Derivation of vulnerability functions for European-type RC structures based on observation data (2003) Journal of Engineering Structures, 25 (10), pp. 1241-1263; Singhal, A., Kiremidjian, A.S., Method for probabilistic evaluation of seismic structural damage (1996) Journal of Structural Engineering, 122 (12), pp. 1459-1467; Song, J., Ellingwood, B.R., Seismic reliability of special moment steel frames with welded connections: II (1999) Journal of Structural Engineering, 125 (4), pp. 372-384 |
| Uncontrolled Keywords: | Risk assessment, Seismic fragility curves, Brick elements, Building model, Damage state, Drift ratio, Earthquake events, Eight node, Finite element software, Fragility curves, Light damage, Log-normal, Moment resisting frames, Peak ground acceleration, Response spectra, Seismic fragility, Structural damages, Three degrees of freedom, Computer software, Concrete buildings, Concrete construction, Dynamic response, Earthquakes, Finite element method, Normal distribution, Reinforced concrete, Structural design |
| Subjects: | T Technology > TA Engineering (General). Civil engineering (General) |
| Divisions: | Faculty of Engineering |
| Depositing User: | Mr Jenal S |
| Date Deposited: | 24 Jan 2014 07:26 |
| Last Modified: | 24 Jan 2014 07:26 |
| URI: | http://eprints.um.edu.my/id/eprint/9116 |
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