磁流变液
打滑(空气动力学)
砂纸
材料科学
扭矩
机械
流变仪
流变学
表面粗糙度
结构工程
工程类
复合材料
阻尼器
物理
热力学
航空航天工程
作者
Rongyu Wu,Hongjian Tang,Yunshan Fu,Jinan Zheng,Honglei Lin,Hui Huang,Shumei Chen
标识
DOI:10.1177/1045389x211014953
摘要
The wall-slip effect is observed in areas with magnetorheological fluids (MRFs). A slip layer is formed, which reduces the friction between the solid particles and working surface that causes relative movement of the particles. This leads to errors in the measurement of rheological parameters and an inaccurate braking torque model. Thus, here, a rheometer with a sandpaper on the rotor is used to change the working surface roughness to analyze the wall-slip effect of the MRFs. Based on the experimental results, the influence patterns of wall-slip effect on fluid viscosity and yield stress are obtained. Furthermore, a MRF model is established that considers wall-slip effect, which is different from the conventional models. The model is employed to establish a magnetorheological (MR) braking torque model. To verify the braking torque model, a prototype was manufactured, and its mechanical properties were tested. When compared with a smooth rotor, the braking torque of MR brakes with rectangular grooves is increased. This confirms the existence of the wall-slip effect and shows that the wall-slip effect of MRF can be effectively suppressed by incorporating grooves on the rotor surface.
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