IMPROVEMENT OF DYNAMIC AND SEISMIC BEHAVIOUR OF CABINETS THROUGH CONTROLLED DEFORMATION

S. Pagliaro, A. D. Di Egidio, A. Contento
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Abstract

. In this paper the possibility to improve the dynamic and seismic response of cabinets that can exhibit rocking dynamics is investigated. The generic cabinet is modelled as an assembly of rigid components and can undergo a change of configuration. The scope of the research is to verify if the allowed deformation could protect the cabinet by preventing the overturning or reducing the amplitude of rocking oscillations. The control of the deformation is obtained by using linear visco-elastic devices, whose mechanical characteristics are at the base of the parametric analysis performed in the paper. An extensive parametric analysis is carried out by numerically integrating the equations of motion. The effectiveness of this protection method is analyzed by comparing the behaviour of rigid and deformable cabinets under one-sine pulse and seismic excitations. For the one-sine pulse excitation, the comparison is made with over-turning spectra that provide the amplitude of the excitation able to overturn the cabinets versus its circular frequency. For the seismic excitation, the comparison is performed by using different registered earthquakes and comparing the maximum rocking angle reached during the motion. The results show that the ability of cabinets to change their configuration improves the dynamical and seismic performances compared to those of the equivalent rigid cabinets
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通过控制变形改善机柜的动力和抗震性能
. 本文探讨了改善具有摇动特性的箱体的动力和地震响应的可能性。通用机柜的模型是刚性组件的组装,可以经历配置的变化。研究的范围是验证允许的变形是否可以通过防止倾覆或减少摇摆振荡的幅度来保护柜子。采用线性粘弹性装置控制变形,其力学特性是本文进行参数分析的基础。通过对运动方程进行数值积分,进行了广泛的参数分析。通过比较刚性柜体和变形柜体在一正弦脉冲和地震作用下的性能,分析了该保护方法的有效性。对于一正弦脉冲激励,与提供能够推翻机柜的激励幅度与其圆频率的翻转光谱进行了比较。对于地震激励,采用不同的记录地震并比较运动时达到的最大摇摆角进行比较。结果表明,与同等刚性结构相比,改变结构的能力提高了结构的动力和抗震性能
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