混联Ⅰ型惯容系统基于李鸿晶谱的地震响应分析

针对设有混联Ⅰ型惯容系统的耗能结构基于李鸿晶谱的响应分析较为繁琐的问题,提出求解地震响应的简明封闭解法,并研究了惯容系统基本参数对减震性能的影响。首先,建立惯容系统和结构之间的微分型本构关系,并运用复模态法和虚拟激励法获得结构系列响应的统一解。其次,将结构系列响应的功率谱密度函数精确转化为复特征值及结构自振频率平方和表示的二次分解式,进而获得响应0阶～2阶谱矩的简明封闭解。最后,通过数值算例验证了所提方法的正确性及计算的高效性,对惯容系统参数的研究表明,当惯容系数和阻尼系数越大,结构减震效果越好,而刚度系数对结构的减震效果取决于惯容系统名义圆频率与结构自振圆频率的比值,当两者比值为0.9时减震效果最好。     

Responses of SDOF Structures With SPIS-Ⅱ Dampers Under Random Seismic Excitation北大核心CSCD

A closed-form solution of responses of SDOF structures with SPIS-Ⅱ dampers under seismic excitation modeled with the Clough-Pezien spectrum was proposed, and the shock absorption performance and influential factors of this system were studied based on the proposed method. Firstly, the motion equation for the SPIS-Ⅱ damper was established, and the unified expressions of frequency domain solutions of structural responses, such as the structural displacement and the inerter force, were obtained. Secondly, based on the rational expression decomposition and the residue theorem, the quadratic orthogonal equations of the frequency response eigenvalue function and the Clough-Pezien spectrum were obtained respectively, and in turn the quadratic orthogonal equation of the structural response power spectrum was deduced. Thirdly, the concise closed-form solutions of the 0~2nd-order spectral moments of the structural responses were acquired. The proposed method and the virtual excitation method were used to analyze a case respectively, which verifies the correctness of the proposed method. Finally, the proposed method was used to analyze the effects of the inerter parameters on the seismic performances of the structure. The research shows that, the proposed method gives closed-form solutions better than those given by the virtual excitation method in terms of computation efficiency and accuracy. The damping performance will improve with the increase of µm and µξ for a constant µω and the damping performance will reach the optimum for µω=1. © 2023 Editorial Office of Applied Mathematics and Mechanics. All rights reserved.