Optimizing dynamic range of Magnetorheological fluid dampers: Modeling and simulation

机译：优化磁流变液阻尼器的动态范围：建模和仿真

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The viscosity of Magnetorheological (MR) fluids changes dramatically in the presence of an electric or magnetic field, leading to their being referred to as ‘smart fluids’. These fluids have important applications in the field of damping systems. The MR damper parameters are different for different application and there always exist a trade-off. The optimal values of the parameters are important in the design of MR damper for a particular application. Dynamic range is one of the key parameters of the MR fluid damper. This study presents the mathematical derivation of optimal yield stress and shear force to determine the optimal dynamic range of an MR fluid damper.

机译：磁流变（MR）流体的粘度在存在电场或磁场的情况下发生巨大变化，因此被称为“智能流体”。这些流体在阻尼系统领域具有重要的应用。对于不同的应用，MR阻尼器参数是不同的，并且总是存在一个折衷。参数的最佳值对于特定应用在MR阻尼器的设计中很重要。动态范围是MR流体阻尼器的关键参数之一。这项研究提出了最佳屈服应力和剪切力的数学推导，以确定MR流体阻尼器的最佳动态范围。

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《2011 4th International Conference on Mechatronics: Integrated engineering for industrial and societal development》|2011年|p.1-4|共4页
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Kasemi Banna; Muthalif Asan G. A.; Rashid M. M.; Rahman Mahmudur;
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中图分类机电一体化;
关键词
Dynamic range; MR damper; Magnetorheological fluids; Shear force; Yield stress;

机译：动态范围; MR阻尼器;磁流变液;剪切力;屈服应力;

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专利

1. Transient effect modelling of magnetorheological fluid-based damper at low speed and its comparison with the existing magnetorheological damper models [J] . Rajeev Mohan Bhatnagar Journal of intelligent material systems and structures . 2013,第12期

机译：低速磁流变阻尼器的瞬态效应模型及其与现有磁流变阻尼器模型的比较
2. Modelling and simulation of electro- and magnetorheological fluid dampers [J] . Butz T., von Stryk O. Zeitschrift fur Angewandte Mathematik und Mechanik . 2002,第1期

机译：电动和磁流变流体阻尼器的建模与仿真
3. A novel hysteretic model for magnetorheological fluid dampers and parameter identification using particle swarm optimization [J] . Kwok NM, Ha QP, Nguyen TH, Sensors and Actuators, A. Physical . 2006,第2期

机译：磁流变流体阻尼器的新型滞回模型和粒子群算法的参数辨识
4. Optimizing dynamic range of Magnetorheological fluid dampers: Modeling and simulation [C] . Kasemi Banna, Muthalif Asan G. A., Rashid M. M., International Conference on Mechatronics . 2011

机译：优化磁流变流体阻尼器的动态范围：建模与仿真
5. Large-scale magnetorheological fluid damper for vibration mitigation: Modeling, testing and control. [D] . Yang, Guangqiang. 2002

机译：减轻振动的大型磁流变流体阻尼器：建模，测试和控制。
6. Microstructure Simulation and Constitutive Modelling of Magnetorheological Fluids Based on the Hexagonal Close-packed Structure [O] . Jintao Zhang, Wanli Song, Zhen Peng, 2020

机译：基于六方密堆积结构的磁流变液的组织模拟与本构模型
7. Modelling and Simulation of Electro- and Magnetorheological Fluid Dampers [O] . T. Butz, O. von Stryk 1998

机译：电磁流变阻尼器的建模与仿真
8. Simulations of Particle Dynamics in Magnetorheological Fluids [R] . Ly, H. V. , Reitich, F. , Jolly, M. R. , 1999

机译：磁流变液中粒子动力学的模拟

Optimizing dynamic range of Magnetorheological fluid dampers: Modeling and simulation

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