Integrating visual damage simulation,virtual inspection,and collapse capacity to evaluate post‐earthquake structural safety of buildings |
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| Authors: | Henry V Burton Gregory G Deierlein |
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| Institution: | 1. Department of Civil and Environmental Engineering, University of California, Los Angeles, CA, USA;2. Department of Civil and Environmental Engineering, Stanford University, Stanford, CA, USA |
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| Abstract: | A methodology is introduced to assess the post‐earthquake structural safety of damaged buildings using a quantitative relationship between observable structural component damage and the change in collapse vulnerability. The proposed framework integrates component‐level damage simulation, virtual inspection, and structural collapse performance assessment. Engineering demand parameters from nonlinear response history analyses are used in conjunction with component‐level damage simulation to generate multiple realizations of damage to key structural elements. Triggering damage state ratios, which describe the fraction of components within a damage state that results in an unsafe placard assignment, are explicitly linked to the increased collapse vulnerability of the damaged building. A case study is presented in which the framework is applied to a 4‐story reinforced concrete frame building with masonry infills. The results show that when subjected to maximum considered earthquake level ground motions, the probability of experiencing enough structural damage to trigger an unsafe placard, leading to building closure, is more than 2 orders of magnitude higher than the risk of collapse. |
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| Keywords: | collapse safety component damage assessment performance‐based assessment post‐earthquake structural safety seismic resilience |
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