Design of lead-rubber-bearing isolation systems using a grasshopper optimisation algorithm

S. Mollaei, E. N. Farsangi, M. Babaei, Fatemeh Mehri, Fakhraddin Ghahramani
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Abstract

Seismic isolation is an efficient method for improving the seismic behaviour of building structures. Sensitivity analysis of the behaviour of the base-isolated structures is essential to investigate the effects of various mechanical and environmental factors on the performance of seismic isolation systems. In this study, the optimal design of a lead-rubber-bearing seismic isolation system is investigated by considering irregular mass condition, and near-fault seismic excitation. The grasshopper optimisation algorithm was used to optimise the design of the isolation system. The sensitivity analysis of the seismic response of the isolated structures was carried out for the mechanical parameters of the isolation system, mass irregularity in the building, and near-fault earthquakes. The results proved the efficiency of the algorithm in optimal design problems for structural isolation systems. Also, the sensitivity analysis of the seismic behaviour of base-isolated structures showed that the yield base shear index had the most important effects in analysis. Also, mass irregularity showed a negligible influence on the behaviour of the isolated structures.
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用蚱蜢优化算法设计铅橡胶支座隔震系统
隔震是改善建筑结构抗震性能的有效方法。基础隔震结构性能的敏感性分析对于研究各种力学和环境因素对隔震系统性能的影响至关重要。在考虑不规则质量条件和近断层地震激励的情况下,研究了铅-橡胶隔震系统的优化设计。采用蝗虫优化算法对隔离系统进行优化设计。对隔震系统的力学参数、建筑物内质量的不规则性和近断层地震进行了隔震结构地震反应的敏感性分析。结果证明了该算法在结构隔震系统优化设计问题中的有效性。对基础隔震结构抗震性能的敏感性分析表明,屈服基础剪切指数对结构抗震性能的影响最为显著。此外,质量不规则性对孤立结构的影响可以忽略不计。
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CiteScore
1.70
自引率
0.00%
发文量
28
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