Analytical optimal design of inerter system for seismic protection using grounded element

IF 2.2 3区 工程技术 Q2 MECHANICS Archive of Applied Mechanics Pub Date : 2023-06-20 DOI:10.1007/s00419-023-02462-9
Ruoyu Zhang, Jizhong Huang, Yue Zhang
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Abstract

Compared with classical tuned mass damper (TMD), inerter system has higher damping efficiency and wider vibration control range. The traditional fixed-point theory of TMD have been used in most of the previous optimal parameter designs of inerter system, the optimized parameters obtained are expressed by the inerter-mass ratio, which may not be applicable to some specific inerter systems (such as tuned viscous mass damper, TVMD) or are too cumbersome. In this paper, the optimal parameters of the inerter system based on the characteristics of the grounded element and muti-performances demand are derived, and demand-based global optimal methods of the design parameters of the inerter system are proposed and compared. The correctness, feasibility and applicability of methods are verified by optimization examples and typical excitation including ground motions. The optimal parameters combinations of the inerter system derived based on the grounded element exist unique analytical expressions. When the value of the grounded element and the objective function are determined, the local optimal design of the inerter system can be realized. If the precise displacement vibration control of original structure is needed, the optimal parameters obtained by the stochastic displacement response that is taken as the objective function can be selected. If the demand is that total energy input of original structure requires is minimum, and the requirements for small displacement control effect are not strict, the optimal parameters of the inerter system obtained by the stochastic velocity response can be selected. If it is necessary to minimize the engineering cost and the control the peak and RMS displacement at the mean time, the optimal parameters of the inerter system obtained by deformation enhancement coefficient of damping element can be selected. The analytical expressions of the optimal design parameters of the inerter system based on the grounded element are concise and the processes of optimal design based on multiple performances objectives are simple, which can be applied to a variety of demands in practical engineering.

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接地单元隔震惯性系统的分析优化设计
与传统的调谐质量阻尼器(TMD)相比,惯性系统具有更高的阻尼效率和更宽的振动控制范围。传统的TMD定点理论已被用于惯性系统的大多数优化参数设计中,获得的优化参数用惯性质量比表示,这可能不适用于某些特定的惯性系统(如调谐粘性质量阻尼器,TVMD)或过于繁琐。本文根据接地元件的特性和多性能需求,推导了惯性系统的最优参数,并提出了基于需求的惯性系统设计参数全局优化方法,并进行了比较。通过优化实例和包括地震动在内的典型激励,验证了方法的正确性、可行性和适用性。基于接地单元导出的惯性系统的最优参数组合存在唯一的解析表达式。当确定了接地元件的值和目标函数时,可以实现惯性系统的局部优化设计。如果需要对原结构进行精确的位移振动控制,可以选择以随机位移响应为目标函数的最优参数。如果要求原始结构的总能量输入最小,并且对小位移控制效果的要求不严格,则可以选择由随机速度响应获得的惯性系统的最优参数。如果需要最小化工程成本并同时控制峰值和RMS位移,则可以选择通过阻尼元件的变形增强系数获得的惯性系统的最佳参数。基于接地单元的惯性系统优化设计参数的解析表达式简洁,基于多个性能目标的优化设计过程简单,可应用于实际工程中的各种需求。
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来源期刊
CiteScore
4.40
自引率
10.70%
发文量
234
审稿时长
4-8 weeks
期刊介绍: Archive of Applied Mechanics serves as a platform to communicate original research of scholarly value in all branches of theoretical and applied mechanics, i.e., in solid and fluid mechanics, dynamics and vibrations. It focuses on continuum mechanics in general, structural mechanics, biomechanics, micro- and nano-mechanics as well as hydrodynamics. In particular, the following topics are emphasised: thermodynamics of materials, material modeling, multi-physics, mechanical properties of materials, homogenisation, phase transitions, fracture and damage mechanics, vibration, wave propagation experimental mechanics as well as machine learning techniques in the context of applied mechanics.
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