Investigation of Optimal Seismic Design Methodology for Piping Systems Supported by Elasto-Plastic Dampers (Part 1: Evaluation Functions):(Part 1: Evaluation Functions)
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概要
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In this study, the optimal seismic design methodology that can consider the structural integrity of not only the piping systems but also elasto-plastic supporting devices is developed. This methodology employs a genetic algorithm and can search the optimal conditions such as the supporting location, capacity and stiffness of the supporting devices. Here, a lead extrusion damper is treated as a typical elasto-plastic damper. Four types of evaluation functions are considered. It is found that the proposed optimal seismic design methodology is very effective and can be applied to the actual seismic design for piping systems supported by elasto-plastic dampers. The effectiveness of the evaluation functions is also clarified.
- 一般社団法人 日本機械学会の論文
著者
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ITO Tomohiro
Mechanical Engineering, Graduate School of Engineering, Osaka Prefecture University
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MICHIUE Masashi
Kawasaki Heavy Industries Ltd.
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MICHIUE Masashi
Kawasaki Heavy Industries, Ltd.
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FUJITA Katsuhisa
Osaka City University
関連論文
- Effect of Structural Dimensions on Dynamic Stability of Elastic Beam Subjected to Axial Flow in Confined Narrow Passage
- Investigation of Optimal Seismic Design Methodology for Piping Systems Supported by Elasto-plastic Dampers : (Part 2: Applicability for Seismic Waves with Various Frequency Characteristics)
- Active Control of Annular Flow-induced Vibration of Axisymmetric Elastic Beam by the Local Gap Width Control
- Pressure Pulsation Behavior in Actual Size Mock-Up Piping System
- Effect of the Body Number and Fluid Resistance on Stability of the Multi-Connected Moving Body
- Influence of Fluid Viscosity and Structural Specifications on Stability in the Vicinity of Critical Velocity of an Elastic Beam Subjected to Confined Axial Flow
- Investigation of Optimal Seismic Design Methodology for Piping Systems Supported by Elasto-Plastic Dampers (Part 1: Evaluation Functions):(Part 1: Evaluation Functions)