Shape optimization of metallic yielding devices for passive mitigation of seismic energy

Kazem Ghabraie; Ricky Chan; Xiaodong Huang; Yi Min Xie

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Shape optimization of metallic yielding devices for passive mitigation of seismic energy

机译：用于被动缓解地震能量的金属屈服装置的形状优化

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摘要

Bi-directional Evolutionary Structural Optimization (BESO) is a well-established topology optimization technique. This method is used in this paper to optimize the shape of a passive energy dissipater designed for earthquake risk mitigation. A previously proposed shape design of a steel slit damper (SSD) device is taken as the initial design and its shape is optimized using a slightly modified BESO algorithm. Some restrictions are imposed to maintain simplicity and to reduce fabrication cost. The optimized shape shows increased energy dissipation capacity and even stress distribution. Experimental verification has been carried out and proved that the optimized shape is more resistant to low-cycle fatigue.

机译：双向进化结构优化（BESO）是一种完善的拓扑优化技术。本文使用此方法来优化为减轻地震风险而设计的无源消能器的形状。最初提出的钢缝减振器（SSD）装置的形状设计被用作初始设计，并使用稍微修改的BESO算法对其形状进行了优化。施加一些限制以保持简单性并降低制造成本。优化的形状显示出增加的能量消散能力和均匀的应力分布。已经进行了实验验证，并证明了优化的形状更能抵抗低周疲劳。

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来源
《Engineering Structures》 |2010年第8期|P.2258-2267|共10页
作者
Kazem Ghabraie; Ricky Chan; Xiaodong Huang; Yi Min Xie;
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作者单位

Faculty of Engineering and Surveying, University of Southern Queensland, Toowoomba Qld 4350. Australia;

rnSchool of Civil, Environmental and Chemical Engineering, RMIT University, GPO Box 2476, Melbourne VIC 3001, Australia;

rnSchool of Civil, Environmental and Chemical Engineering, RMIT University, GPO Box 2476, Melbourne VIC 3001, Australia;

rnSchool of Civil, Environmental and Chemical Engineering, RMIT University, GPO Box 2476, Melbourne VIC 3001, Australia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
shape optimization; energy dissipation; Bi-directional evolutionary structural optimization; metallic damper; cyclic tests; earthquake resistant structure;

机译：形状优化;能量耗散;双向进化结构优化;金属阻尼器循环测试;抗震结构;

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2. Minimum life-cycle cost-based optimal design of yielding metallic devices for seismic loads [J] . Shin H., Singh M. P. Engineering Structures . 2017,第AUGa1期

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3. Apparent-weakening by adaptive passive stiffness shaping along the height of multistory building using negative stiffness devices and dampers for seismic protection [J] . Nagarajaiah Satish, Sen Debarshi Engineering Structures . 2020,第Octa1期

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7. Shape optimization of metallic yielding devices for passive mitigation of seismic energy [O] . Ghabraie Kazem, Chan Ricky, Huang Xiaodong, 2010

机译：用于被动缓解地震能量的金属屈服装置的形状优化
8. Equivalent Number of Loading Cycles for the Seismic Testing of Passive Energy Dissipation Devices [R] . Sadek, F., Riley, M. A. 2002

机译：被动耗能装置抗震试验的等效加载循环次数

Shape optimization of metallic yielding devices for passive mitigation of seismic energy

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