磁流变传动装置多种工况下热结构场研究
Research on Thermal Structure Field of Magnetorheological Device Under Multiple Working Condition
- 机械传动 2019年43卷第8期 页码:18-24
- 作者机构:
1.重庆理工大学 机械工程学院,重庆 400054
- 作者简介:
陈松(1979— ),男,河南南阳人,工学博士,副教授,主要从事智能材料及传动应用研究。
- 基金信息:国家自然科学基金(51875068┫重庆市基础与前沿研究计划┣cstc2016jcyjA0417)
DOI:10.16578/j.issn.1004.2539.2019.08.004
中图分类号:
扫 描 看 全 文
陈松,杨晶,黄金.磁流变传动装置多种工况下热结构场研究[J].机械传动,2019,43(08):18-24.
Chen Song,Yang Jing,Huang Jin.Research on Thermal Structure Field of Magnetorheological Device Under Multiple Working Condition[J].Journal of Mechanical Transmission,2019,43(08):18-24.
陈松,杨晶,黄金.磁流变传动装置多种工况下热结构场研究[J].机械传动,2019,43(08):18-24. DOI: 10.16578/j.issn.1004.2539.2019.08.004.
Chen Song,Yang Jing,Huang Jin.Research on Thermal Structure Field of Magnetorheological Device Under Multiple Working Condition[J].Journal of Mechanical Transmission,2019,43(08):18-24. DOI: 10.16578/j.issn.1004.2539.2019.08.004.
摘要
针对高温条件下磁流变液剪切应力、热磁化强度、黏度和流变特性显著降低,以及热应力对磁流变液链化结构的破坏,严重影响磁流变传动装置性能的问题,基于剪切模量与磁场强度的非线性关系,推算了磁场作用下磁流变液固化状态的弹性模量;研究了在滑差和励磁线圈功率损失工况下磁流变液的温度、热变形以及等效热应力分布规律;探讨了滑差功率、电流、间隙宽度和励磁线圈绕组级数对其的影响。研究结果表明,滑差功率和励磁线圈生热都会造成磁流变液温度显著升高,由此产生的热变形对结构影响较小,而等效热应力影响较大;磁流变液工作间隙与非工作间隙的等效热应力分布存在明显差异;可在滑差和电流不变的情况下通过改变间隙宽度和绕组级数提高磁流变传动装置的性能。
Abstract
The shear stress,the thermal magnetization,the viscosity and the rheological properties of the magnetorheological fluid are significantly reduced under high temperature,and the damage of the thermal stress produced by the high temperature to the chain structure of the magnetorheological fluid seriously affected the transmission performance of the magnetorheological transmission.Based on the nonlinear relationship between shear modulus and magnetic field strength,the elastic modulus of magnetorheological fluid under the action of magnetic field is calculated.The temperature,thermal deformation and the distribution law of the equivalent thermal stress in the magnetorheological fluid gap are studied under the condition of the slip and the power loss of the excitation coil and the influence of the slip power,current,gap width and the winding series of the excitation coil on it is discussed.The results show that both the slip power and the excitation coil current will cause a significant increase in the temperature of the magnetorheological fluid,and the resulting thermal deformation has little influence on the structure,and the equivalent thermal stress is greatly affected.There are obvious differences in the equivalent thermal stress distribution between the working gap and the no working gap of MRF.The performance of magnetorheological transmission device can be improved by changing the width of the gap and the series of windings under the condition of constant slip and current.
关键词
磁流变液温度滑差生热电流发热热结构场
Keywords
Magnetorheological fluidTemperatureSlip heat generationCurrent heatingThermal-structural field
references
陈松,李峰,黄金,等.温度对磁流变液材料及其传力性能的影响[J].材料导报,2015,29(16):151-155.
王道明,孟庆睿,侯友夫,等.传动装置磁流变液瞬态温度场研究[J].农业机械学报,2013,44(4):287-292.
潘胜,吴建耀,胡林,等.磁流变液的屈服应力与温度效应[J].功能材料,1997,28(3):264-267.
BILYK V,Korobko Eugenia ,Bubulis Algimantas .Estimation of performance characteristics of a controlled shock-absorber affected by the magnetic field and temperature on rheological properties of the magnetorheological fluid[J].Engineering Village,2014(10):101-106.
KAVLICOGLU B M,GORDANINEJAD F,EVRENSEL C A,et al.Heating of a high-torque magnetorheological fluid limited slip differential clutch[J].Engineering Village,2008,19(2):235-241.
SUN Q,ZHOU J X,ZHANG L.An adaptive beam model and dynamic characteristics of magnetorheological materials[J].Journal of Sound and Vibration,2003(3):465-481.
田祖织,侯友夫,王囡囡.磁流变液传动装置温度特性研究[J].仪器仪表学报,2012,33(3):596-601.
唐龙,岳恩,罗顺安,等.磁流变液温度特性研究[J].功能材料,2011,6(42):1065-1067.
贾润泽,王义春,周飞.磁场作用下的磁流变液导电性和导热性[J].华南理工大学学报(自然科学版),2014,42(10):57-63.
陈飞,田祖织,王建.温度对磁流变液流变性能的影响研究[J].功能材料,2014,45(20):20095-20098.
郑祥盘,陈凯峰,陈淑梅.曳引电梯磁流变制动装置的温度特性研究[J].中国机械工程,2016,27(16):2141-2147.
WANG D M,ZI B,QIAN S,et al.Steady-state heat-flow coupling field of a high-power magnetorheological fluid clutch utilizing liquid cooling [J].Engineering Village,2017(11):105-111.
KORDONSKY W I.Magnetorheological effect as a base of new devices and technologies[J].Journal of Magnetism and Magnetic Materials,1993,122(1):395-398.
Zekeriya Parlak n,Tahsin Engin .Time-dependent CFD and quasi-static analysis of magnetorheological fluid dampers with experimental validation[J].International Journal of Mechanical Sciences,2012,64(1):22-31.
ZHOU J F,ZHANG H,SHAO C L.Flow and heat transfer performances of dilute magnetorheological fluid flowing through hot micro channel[J].Engineering Village,2016(11):107-111.
孙捷超,冯志敏,董凯,等.MR阻尼器瞬态温度场的多场耦合仿真及试验[J].船舶工程,2017,39(2):32-36.
董小闵,于建强,杨茂举.考虑温度因素的磁流变减振器的优化设计与实验[J].振动与冲击,2016,35(8):54-58.
HUANG J,YANG Y,HUANG Y.Flow of the magnetorheological fluid in disc-type clutch[J].Advanced Materials Research,2013,740:709-714.
Yildirim Gokhan ,Genc Seval .Experimental study on heat transfer of the magnetorheological fluids[J].Engineering Village,2013,22(8):85-101.
乔臻,黄金,刘栗均,等.圆筒型磁流变传动装置励磁线圈的设计与分析[J].矿山机械,2015,43(3):44-49.
0
浏览量
3
下载量
0
CSCD
- 网络PDF下载
- Meta-XML下载
- BibTeX下载
- Endnote下载
- RefMan 下载
- NoteExpress下载
- NoteFirst下载
关联资源
相关文章
相关作者
相关机构
- 技术支持由北京北大方正电子有限公司提供 豫ICP备05013835号-5
京公网安备11010802024621 - 本系统建议在Chrome、 IE9+ 以上版本浏览器阅读本站内容,360浏览器请切换至极速模式
- Cookies帮助我们提供服务并提供个性化体验。使用本网站,即表示您同意我们使用Cookies