The Earthquake Engineering Online ArchiveSeismic Evaluation of Reinforced Concrete Buildings Including Effects of Masonry Infill WallsHashemi, Seyed Alidad; Mosalam, Khalid M. PEER-2007/100, Pacific Earthquake Engineering Research Center (PEER), University of California, Berkeley, 2007-07, PDF (11.1 MB) A comprehensive study to evaluate the seismic performance of reinforced concrete (RC) buildings with unreinforced masonry (URM) infill walls is performed in sequence: (1) shake-table experiments, (2) computational modeling, and (3) reliability-based performance evaluation. A hypothetical prototype building with RC frames, RC floor slabs, and URM infill walls is considered. A reduced-scale test structure was constructed to represent a substructure of the prototype building and subjected to a sequence of ground motions. The shake-table experiments and the global and local response of the test structure are discussed in detail. Several post-test computational modeling approaches and a detailed finite element (FE) model representing the URM infill walls are evaluated. The validated FE model is used to understand the in-plane and out-of-plane responses for RC frames with URM infill walls subjected to bidirectional seismic loading. A three-dimensional strut and tie (SAT) model is formulated for practical representation of the combined in-plane and out-of-plane failure surface in conventional computational platforms. Finally, the prototype building is considered to demonstrate a framework for practical reliability analysis of RC buildings containing URM infill walls. Fragility functions are determined for the prototype building subjected to near-fault ground motions. Available online: http://peer.berkeley.edu/publications/peer_reports/reports_2007/web_PEER7100_HASHEMI_mosalam.pdf |
