Actuators, Vol. 13, Pages 352: Development and Experimental Study of a Mixed-Mode Vibration Isolator Using Magnetorheological Elastomer

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Actuators, Vol. 13, Pages 352: Development and Experimental Study of a Mixed-Mode Vibration Isolator Using Magnetorheological Elastomer

Actuators doi: 10.3390/act13090352

Authors: Qianjie Liu Zhirong Guo Wei Liu Gang Li Shengzhi Jin Lei Yu Guoliang Hu

This paper proposes a mixed-mode (combining shear and squeeze working modes) vibration isolator using magnetorheological elastomer (MRE), which enables the isolator to have a larger working area and better isolation performance by combining the working modes of the MRE. Firstly, based on the magnetorheological effect working principle of the MRE, the material selection and dimensional parameters of each component are determined through structural design and magnetic circuit calculation. On this basis, magnetic field simulation is conducted using Maxwell 16.0 software to analyze the distribution of magnetic field lines and magnetic induction in the working area. Simultaneously, equivalent stiffness and equivalent damping models are established to explore the variation of vibration response with external current and excitation frequency conditions. Finally, a vibration isolation experimental platform is built to test the mixed-mode MRE isolator. The experimental results are basically consistent with the simulation modeling results. The experimental results showed that when the external excitation is in the frequency range of 16 Hz, effective semi-active vibration isolation control could be achieved by applying different current inputs. The isolation effect of the system is difficult to effectively control using current input when the external excitation is at high frequency. These results validate the rationality and feasibility of the mixed-mode MRE isolator structure, which provides a good reference for the design of MRE isolators.

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