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原文传递 Development of a Macroscopic Global Seismic Damage Model for Lattice Shell Structures

题名：	Development of a Macroscopic Global Seismic Damage Model for Lattice Shell Structures
正文语种：	英文
作者：	Zheng He; Zhenyu Zhu; Xiang Guo; Tingting Liu;Yitao Hu
作者单位：	Dalian Univ;China Railway Construction Corporation (International) Limited
关键词：	Global seismic damage; Lattice shell structure; Earthquake; Modal damage; Combination rule; Modal shift; Incremental dynamic analysis; Seismic effects.
摘要：	A physics-based macroscopic global seismic damage model is developed for lattice shell structures excited by strong earthquakes. Global seismic damage is generated from so-called modal damage that is defined as the loss ratio of potential energy stored in structures before and after earthquakes, with the combination rule based on the assumption of in-series independencies among modal damages involved. The minimum number of lower modes required in the combination is determined by the suggested procedures using the maximum nodal displacement as a key response quantity. The issue of modal match arises from the modal shift phenomenon that commonly exists in aseismic lattice shells is solved by the linear modal assurance criteria (LMAC) approach. The case study indicates that the predictions result from the model exhibit a desirable correlation with the maximum nodal displacement time history response and a good tendency in damage evolution as more modes are involved. The global damage curves can comply with a typical six-segment positive S-type damage evolution curve. The model can be regarded as an extension to the final softening model proposed by DiPasquale and Cakmak. DOI: 10.1061/(ASCE)ST.1943-541X.000166& © 2016 American Society of Civil Engineers.
出版日期：	2017.02
出版年：	2017
期刊名称：	Journal of Structural Engineering
卷：	Vol.143
期：	NO.02
页码：	04016174