Numerical Models of Hysteretic Steel Plate Damper with a Hollow Diamond Shape for Energy Dissipation

机译：滞回板阻尼器的数值模型，具有空心钻石形状，用于耗能

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Numerical studies were conducted to evaluate the behaviour of a hollow diamond shaped hysteretic steel plate damper under in-plane cyclic loading. The combine hardening material model based on Chaboche kinematic hardening rule and exponential isotropic hardening rule was proposed to trace the cyclic hardening behaviour of the steel damper. For engineering design purposes, simplified models based on bilinear and trilinear models were also presented. Numerical results showed that hysteretic curve obtained from Chaboche model and the simplified models correlate well with experimental results. Furthermore, the validity of the simplified models is verified through a comparison of its hysteretic energy dissipation with the actual test data.

机译：进行数值研究以评估在平面内循环载荷下中空菱形滞后钢板阻尼器的行为。基于Chaboche运动硬化规律和指数各向同性硬化规律的组合硬化材料模型探测钢阻尼器的循环硬化行为。对于工程设计目的，还提出了基于双线性和三线性模型的简化模型。数值结果表明，用Chaboche模型获得的滞后曲线和简化模型与实验结果相相关。此外，通过与实际测试数据的滞后能量耗散的比较来验证简化模型的有效性。

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《eco-AWAM International Conference on Civil Engineering》|2015年||共6页
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作者
Daniel R. Teruna; Taksiah A. Majid; Bambang Budiono;
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中图分类 TU-53;
关键词
Steel damper; Hardening rule; Hysteretic curve; Energy dissipation;

机译：钢阻尼器;硬化规则;滞后曲线;能量耗散;

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1. Experimental Study of Hysteretic Steel Damper for Energy Dissipation Capacity [J] . Daniel R.Teruna, Taksiah A.Majid, BambangBudiono Advances in civil engineering . 2015,第1期

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2. Experimental Study of Hysteretic Steel Damper for Energy Dissipation Capacity [J] . Daniel R. Teruna, Taksiah A. Majid, Bambang Budiono Advances in civil engineering . 2015,第期

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4. Numerical Models of Hysteretic Steel Plate Damper with a Hollow Diamond Shape for Energy Dissipation [C] . Daniel R. Teruna, Taksiah A. Majid, Bambang Budiono eco-AWAM International Conference on Civil Engineering . 2015

机译：滞回板阻尼器的数值模型，具有空心钻石形状的耗散
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8. Multidimensional Models of Hysteretic Material Behavior for Vibration Analysis of Shape Memory Energy Absorbing Devices [R] . Graesser, E. J., Cozzarelli, F. A. 1989

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Numerical Models of Hysteretic Steel Plate Damper with a Hollow Diamond Shape for Energy Dissipation

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