Numerical simulation of laterite confined masonry building subjected to quasi-static monotonic lateral loading

A. Chourasia, Shubham Singhal, Akshat Chourasia
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引用次数: 1

Abstract

ABSTRACT The paper attempts to establish a relationship between strength of laterite units and mortar to predict masonry strength and elastic modulus of laterite masonry based on material properties reported in literature. The properties obtained from derived analytical models were used as input parameters for finite element analysis (FEA) of laterite confined masonry (LCM) buildings under quasi-static loading. Numerical studies were performed on LCM buildings up to four stories to study seismic behaviour. LCM buildings upto three storeys demonstrated stresses within the permissible limits for the wall thickness of 150 mm, while four storey LCM building showed high stress concentration exceeding the permissible limits, for which ground storey wall thickness may be increased to 300 mm. One storey LCM building resisted lateral load equivalent to 1.02 g of its mass, while the corresponding values for two, three and four storey LCM buildings were 0.40 g, 0.23 g and 0.13 g, respectively. LCM buildings up to three storey demonstrated maximum damage index in the range of 0.8 to 0.85, indicating collapse prevention state. Howbeit, four storey LCM building exhibited damage index of 0.91 at maximum displacement, which corresponds to collapse state.
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红土约束砌体结构在准静态单调横向荷载作用下的数值模拟
摘要本文试图根据文献中报道的材料特性,建立红土单元和砂浆强度之间的关系,以预测红土砌体的砌体强度和弹性模量。从导出的分析模型中获得的特性被用作红土约束砌体(LCM)建筑在准静态载荷下的有限元分析(FEA)的输入参数。对四层以下LCM建筑进行了数值研究,以研究其抗震性能。三层以下LCM建筑的应力在壁厚为150的允许范围内 mm,而四层LCM建筑显示出超过允许极限的高应力集中,一层的壁厚可能增加到300 mm。一层LCM建筑抵抗相当于1.02的横向荷载 g的质量,而两层、三层和四层LCM建筑的相应值为0.40 g、 0.23 g和0.13 g、 分别。三层以下LCM建筑的最大损坏指数在0.8至0.85之间,表明处于防倒塌状态。然而,四层LCM建筑在最大位移时的损伤指数为0.91,相当于倒塌状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.90
自引率
9.50%
发文量
24
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