APPLICABILITY OF OPTIMAL SEISMIC DESIGN METHODOLOGY FOR PIPING SYSTEMS SUBJECTED TO SEISMIC WAVES WITH VARIOUS FREQUENCY CHARACTERISTICS

机译：最优地震设计方法在具有各种频率特性的地震波作用下的管道系统的适用性

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In this study, the optimal seismic design methodology which can consider the structural integrity of both piping systems and elasto-plastic support devices are developed. This methodology employs genetic algorithm and can search the optimal conditions such as supporting locations, capacity and stiffness of supporting devices. A lead extrusion damper is treated here as a typical elasto-plastic damper. Numerical simulations are performed using a simple piping system model for the various kinds of seismic waves with different frequency characteristics. As a result, it is shown that the optimal seismic design methodology proposed here is applicable to the seismic design of piping systems supported by elasto-plastic dampers subjected to the seismic waves with various kinds of frequency characteristics.

机译：在这项研究中，开发了可以同时考虑管道系统和弹塑性支撑装置结构完整性的最佳抗震设计方法。该方法采用遗传算法，可以搜索最佳条件，例如支撑位置，支撑设备的容量和刚度。铅挤压阻尼器在这里被视为典型的弹塑性阻尼器。使用简单的管道系统模型对具有不同频率特性的各种地震波进行数值模拟。结果表明，本文提出的最佳抗震设计方法适用于以弹塑性阻尼器为支撑的管道系统的抗震设计，该阻尼器承受了各种频率特性的地震波。

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《ASME(American Society of Mechanical Engineers) Pressure Vessels and Piping Conference 2007》|2008年|P.33|共1页
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Tomohiro ITO; Katsuhisa FUJITA; Masashi MICHIUE;
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中图分类压力容器;
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a: cross section area of beam element; c: damping matrix; d: diameter of beam element; e: young's modulus of beam element; e_(ab): absorbed energy of damper; e_(al): allowable absorbed energy of damper; e_(in): seismic input energy; f: fitness value of;

机译：a：梁单元的横截面积; c：阻尼矩阵; d：梁单元的直径; e：梁单元的杨氏模量; e_（ab）：阻尼器的吸收能量; e_（al）：阻尼器的容许吸收能量; e_（in）：地震输入能量; f：的适应度值;

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APPLICABILITY OF OPTIMAL SEISMIC DESIGN METHODOLOGY FOR PIPING SYSTEMS SUBJECTED TO SEISMIC WAVES WITH VARIOUS FREQUENCY CHARACTERISTICS

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