摘要
为解决传统磁流变阻尼器存在工作介质易沉降、密封要求较高,且中高频激励下阻尼器刚度快速增大,能耗衰减严重的问题,制备并测试了一种沉降稳定性能良好且密封要求低的磁流变复合材料,建立改进的Herschle-Bulkley模型用以表征复合材料的力学性能;基于该复合材料设计加工出一种剪切式磁流变阻尼器,并设计实验测试中、高频激励下阻尼器的性能响应规律.研究结果表明:3 A电流激励下,当测试频率由5 Hz增大至20 Hz时,阻尼器动态刚度由4.87×10^(5) N/m增加到6.29×10^(5)N/m,且全频段阻尼器单周期耗能均在0.04 J左右,验证了所设计的磁流变阻尼器在中高频振动工况下的耗能能力.
Traditional magnetorheological dampers involve sedimentary working media,high sealing requirements,rapidly increasing damper stiffness,and serious energy consumption attenuation under mediumand high-frequency excitation.In order to address these problems,a magnetorheological composite material with excellent settlement stability and low sealing requirements was prepared and tested,and an improved Herschle-Bulkley model was established to characterize the mechanical properties of the composite material.Furthermore,a shear magnetorheological damper was designed and manufactured based on the composite material,and the performance response law of the damper under medium-and high-frequency excitation was tested by designed experiments.The results show that the dynamic stiffness of the damper increases from 4.87×10^(5) N/m to 6.29×10^(5) N/m when the test frequency is increased from 5 Hz to 20 Hz under the current excitation of 3 A,and the single-cycle energy consumption of the damper under the full-band is about 0.04 J,which verified the energy consumption capacity of the designed magnetorheological damper under medium-and high-frequency vibrations.
作者
董小闵
王凯翔
李坪洋
DONG Xiaomin;WANG Kaixiang;LI Pingyang(College of Mechanical and Vehicle Engineering,Chongqing University,Chongqing 400044,China)
出处
《西南交通大学学报》
EI
CSCD
北大核心
2023年第4期896-902,共7页
Journal of Southwest Jiaotong University
基金
国家自然科学基金(52075056)。
关键词
磁流变复合材料
改进H-B模型
磁流变阻尼器
中高频响应
magnetorheological composite materials
improved H-B model
magnetorheological damper
medium-and high-frequency response