磁流变材料的应用综述
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摘要
磁流变材料作为一种新型智能材料,自问世以来就因其特殊性质得到了广泛的关注。针对磁流变材料应用范围有限、成熟应用较少的问题,为了促进磁流变材料的应用发展,综述了目前磁流变材料特性研究及应用发展现状,总结了目前磁流变材料应用所面临的问题,结合问题提出了解决方案,为磁流变材料的发展和应用提供参考。
Magnetorheological material is a new type of intelligent material, since its inception, it has received extensive attention due to its special nature. In order to promote the application development of magnetorheological materials, the current research on the characteristics of magnetorheological materials and application development status of magnetorheological materials were reviewed in view of the limited application range of magnetorheological materials and the small number of mature applications. The problems faced by the current application of magnetorheological materials were summarized. The solution was proposed in combination with the problems, which provided a reference for the development and application of magnetorheological materials.
Magnetorheological material is a new type of intelligent material, since its inception, it has received extensive attention due to its special nature. In order to promote the application development of magnetorheological materials, the current research on the characteristics of magnetorheological materials and application development status of magnetorheological materials were reviewed in view of the limited application range of magnetorheological materials and the small number of mature applications. The problems faced by the current application of magnetorheological materials were summarized. The solution was proposed in combination with the problems, which provided a reference for the development and application of magnetorheological materials.
引文
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[2]Peyman Yadmellat, Mehrdad R.Kermani.Adaptive control of a hysteretic magnetorheological robot actuator[J].IEEE/ASME Transactions on Mechatronics, 2016, 21(3):1336-1344.
[3]Hosseini SM, Vafajoo L, Ghasemi E, et al.Experimental investigation the effect of nanoparticle concentration on the rheological behavior of paraffin-based nickel ferrofluid[J].International Journal of Heat & Mass Transfer, 2016, 93:228.
[4]Mark R Jolly, J David Carlson and Beth C Munoz.A model of the behaviour of magnetorheological materials[J].Smart Materials & Structures, 1999, 5(5):607-614.
[5]Bossis G, Lemaire E, Volkova O, et al.Yield stress in magnetorheological and electrorheological fluids: A comparison between microscopic and macroscopic structural models[J].Journal of Rheology, 1997, 41(41):687-704.
[6]Danas K, Kankanala S V, Triantafyllidis N. Experiments and modeling of iron-particle-filled magnetorheological elastomers[J].Journal of the Mechanics & Physics of Solids, 2012, 60(1):120-138.
[7]Zhang X Z, Gong X L, Zhang P Q, et al.Study on the mechanism of the squeeze-strengthen effect in magnetorheological fluids[J].Journal of Applied Physics, 2004, 96(4):2359-2364.
[8]朱应顺,龚兴龙,李辉,等.磁流变液剪切屈服应力的数值分析[J].中国矿业大学学报, 2006, 35(4):498-503.
[9]阮晓辉.磁流变液力学性能及其应用研究[D].安徽:中国科学技术大学,2017.
[10]Takehito Kikuchi,Kikuko Otsuki, Junji Furusho, et al.Development of a compact magnetorheological fluid clutch for human-friendly actuator[J].Advanced Robotics, 2010, 25(9-10):1362-1362.
[11]Rizzo R, Musolino A, Bucchi F, et al.A multi-gap magnetorheological clutch with permanent magnet[J].Smart Materials & Structures, 2015, 24(7).
[12]Peyman Yadmellat, Mehrdad R.Kermani.Adaptive modeling of a magnetorheological clutch[J].IEEE/ASME Transactions on Mechatronics, 2014, 19(5):1716-1723.
[13]孟维佳.双平板式磁流变液离合器的研究设计[D].黑龙江:哈尔滨工业大学,2006.
[14]邹刚.杯状磁流变液离合器的性能测试与优化设计[D].黑龙江:哈尔滨工业大学,2009.
[15]胡红生,王炅,崔亮,等.磁流变风扇离合器结构设计与可控性分析[J].南京理工大学学报(自然科学版),2010,34(3):342-346.
[16]Fitrian Imaduddin , Saiful Amri Mazlan , Hairi Zamzuri.A design and modelling review of rotary magnetorheological damper[J].Materials & Design, 2013, 51(5):575-591.
[17]Zekeriya Parlak, Tahsin Engin, Ismail ?all.Optimal design of MR damper via finite element analyses of fluid dynamic and magnetic field[J].Mechatronics, 2012, 22(6):890-903.
[18]刘松.磁流变阻尼器的研究及其应用[D].江苏:南京航空航天大学,2015.
[19]高瞻,宋爱国,秦欢欢,等.蛇形磁路多片式磁流变液阻尼器设计[J].仪器仪表学报,2017,38(4):821-829.
[20]史卫领.磁流变阻尼器模型研究与性能分析[D].浙江:浙江大学,2017.
[21]Li W H, H Du. Design and experimental evaluation of a magnetorheological brake[J].International Journal of Advanced Manufacturing Technology, 2003, 21(7):508-515.
[22]Jonathan Blake, Hakan B, Gurocak.Haptic glove with MR brakes for virtual reality[J].IEEE/ASME Transactions on Mechatronics, 2009, 14(5):606-615.
[23]Berk Gonenc, Hakan Gurocak.Virtual needle insertion with haptic feedback using a hybrid actuator with DC servomotor and MR-brake with Hall-effect sensor[J].Mechatronics, 2012, 22(8):1161-1176.
[24]Edward J.Park, Dilian Stoikov, Luis Falcao da Luz, et al.A performance evaluation of an automotive magnetorheological brake design with a sliding mode controller[J].Mechatronics, 2006, 16(7):405-416.
[25]Carlos Rossa, Adrien Jaegy, Jose Lozada, et al.Design considerations for magnetorheological brakes[J].IEEE/ASME Transactions on Mechatronics, 2014, 19(5):1669-1680.
[26]Satyajit R Patil, Kanhaiya P Powar, Suresh M Sawant. Thermal analysis of magnetorheological brake for automotive application[J].Applied Thermal Engineering, 2016, 98:238-245.
[27]Andrzej Milecki, Mikolaj Hauke.Application of magnetorheological fluid in industrial shock absorbers[J].Mechanical Systems & Signal Processing, 2012, 28(2):528-541.
[28]Antonio Lanzotti, Fabrizio Renno, Michele Russo,et al.Design and development of an automotive magnetorheological semi-active differential[J].Mechatronics, 2014, 24(5):426-435.
[29]Guo H T, Liao W H. A novel multifunctional rotary actuator with magnetorheological fluid[J].Smart Materials & Structures, 2012, 21(21):65012-65020.
[30]Chen J Z, Liao W H. Design, testing and control of a magnetorheological actuator for assistive knee braces[J].Smart Materials & Structures, 2010, 19(3):035029.
[31]卢铭涛.飞机起落架磁流变减震器的设计与试验研究[D].天津:中国民航大学,2013.
[32]张海云.两级径向流磁流变阀结构设计与性能研究[D].江西:华东交通大学,2016.
[33]胡国良,喻理梵,李海燕,等.双线圈磁流变阀压降特性分析[J].机床与液压,2013,41(19):133-136.
[34]吴张永,王京涛,王娴,等.基于磁流变液的磁流变阀设计与研究[J].昆明理工大学学报(自然科学版),2012,37(4):48-51.
[35]马良旭.电动汽车磁流变液制动系统的研究与开发[D].北京:清华大学,2016.
[36]尹韶辉,徐志强,陈逢军,等.小口径非球面斜轴磁流变抛光技术[J].机械工程学报,2013,49(17):33-38.
[37]Anon.Magnetorheological fluids change army uniform to armor[J].Advanced Materials and Processes, 2004, 162(2):21 -22.
[38]Marathe S, Gandhi F, Wang K W.Characterization an analysis of magnetrhedogical damper behavior due to sinusoidal loading[C]//Proc of SPIE.Washton: SPIE, 1998: 390-401.
[39]黄继.含磁流变阻尼器自动武器缓冲系统控制理论与技术的研究[D].山西:中北大学,2011.
[40]常娟.引信磁流变液延期解除保险机构研究[D].江苏:南京理工大学,2007.
[41]陆静,王炅,常娟.引信旋转式磁流变液延期解除保险机构研究[J].探测与控制学报,2009,31(03):14-18.
[42]赵亚楠.中大口径炮弹引信磁流变液延期解除保险机构研究[D].江苏:南京理工大学,2013.
[43]郑彩军.小口径引信磁流变延期解除保险机构的设计研究[D].江苏:南京理工大学,2012.
[44]常辉,代俊,张继豪,等.基于磁流变脂的微型磁电发电机转速控制[J].探测与控制学报, 2018, 40(4):57-61.
[2]Peyman Yadmellat, Mehrdad R.Kermani.Adaptive control of a hysteretic magnetorheological robot actuator[J].IEEE/ASME Transactions on Mechatronics, 2016, 21(3):1336-1344.
[3]Hosseini SM, Vafajoo L, Ghasemi E, et al.Experimental investigation the effect of nanoparticle concentration on the rheological behavior of paraffin-based nickel ferrofluid[J].International Journal of Heat & Mass Transfer, 2016, 93:228.
[4]Mark R Jolly, J David Carlson and Beth C Munoz.A model of the behaviour of magnetorheological materials[J].Smart Materials & Structures, 1999, 5(5):607-614.
[5]Bossis G, Lemaire E, Volkova O, et al.Yield stress in magnetorheological and electrorheological fluids: A comparison between microscopic and macroscopic structural models[J].Journal of Rheology, 1997, 41(41):687-704.
[6]Danas K, Kankanala S V, Triantafyllidis N. Experiments and modeling of iron-particle-filled magnetorheological elastomers[J].Journal of the Mechanics & Physics of Solids, 2012, 60(1):120-138.
[7]Zhang X Z, Gong X L, Zhang P Q, et al.Study on the mechanism of the squeeze-strengthen effect in magnetorheological fluids[J].Journal of Applied Physics, 2004, 96(4):2359-2364.
[8]朱应顺,龚兴龙,李辉,等.磁流变液剪切屈服应力的数值分析[J].中国矿业大学学报, 2006, 35(4):498-503.
[9]阮晓辉.磁流变液力学性能及其应用研究[D].安徽:中国科学技术大学,2017.
[10]Takehito Kikuchi,Kikuko Otsuki, Junji Furusho, et al.Development of a compact magnetorheological fluid clutch for human-friendly actuator[J].Advanced Robotics, 2010, 25(9-10):1362-1362.
[11]Rizzo R, Musolino A, Bucchi F, et al.A multi-gap magnetorheological clutch with permanent magnet[J].Smart Materials & Structures, 2015, 24(7).
[12]Peyman Yadmellat, Mehrdad R.Kermani.Adaptive modeling of a magnetorheological clutch[J].IEEE/ASME Transactions on Mechatronics, 2014, 19(5):1716-1723.
[13]孟维佳.双平板式磁流变液离合器的研究设计[D].黑龙江:哈尔滨工业大学,2006.
[14]邹刚.杯状磁流变液离合器的性能测试与优化设计[D].黑龙江:哈尔滨工业大学,2009.
[15]胡红生,王炅,崔亮,等.磁流变风扇离合器结构设计与可控性分析[J].南京理工大学学报(自然科学版),2010,34(3):342-346.
[16]Fitrian Imaduddin , Saiful Amri Mazlan , Hairi Zamzuri.A design and modelling review of rotary magnetorheological damper[J].Materials & Design, 2013, 51(5):575-591.
[17]Zekeriya Parlak, Tahsin Engin, Ismail ?all.Optimal design of MR damper via finite element analyses of fluid dynamic and magnetic field[J].Mechatronics, 2012, 22(6):890-903.
[18]刘松.磁流变阻尼器的研究及其应用[D].江苏:南京航空航天大学,2015.
[19]高瞻,宋爱国,秦欢欢,等.蛇形磁路多片式磁流变液阻尼器设计[J].仪器仪表学报,2017,38(4):821-829.
[20]史卫领.磁流变阻尼器模型研究与性能分析[D].浙江:浙江大学,2017.
[21]Li W H, H Du. Design and experimental evaluation of a magnetorheological brake[J].International Journal of Advanced Manufacturing Technology, 2003, 21(7):508-515.
[22]Jonathan Blake, Hakan B, Gurocak.Haptic glove with MR brakes for virtual reality[J].IEEE/ASME Transactions on Mechatronics, 2009, 14(5):606-615.
[23]Berk Gonenc, Hakan Gurocak.Virtual needle insertion with haptic feedback using a hybrid actuator with DC servomotor and MR-brake with Hall-effect sensor[J].Mechatronics, 2012, 22(8):1161-1176.
[24]Edward J.Park, Dilian Stoikov, Luis Falcao da Luz, et al.A performance evaluation of an automotive magnetorheological brake design with a sliding mode controller[J].Mechatronics, 2006, 16(7):405-416.
[25]Carlos Rossa, Adrien Jaegy, Jose Lozada, et al.Design considerations for magnetorheological brakes[J].IEEE/ASME Transactions on Mechatronics, 2014, 19(5):1669-1680.
[26]Satyajit R Patil, Kanhaiya P Powar, Suresh M Sawant. Thermal analysis of magnetorheological brake for automotive application[J].Applied Thermal Engineering, 2016, 98:238-245.
[27]Andrzej Milecki, Mikolaj Hauke.Application of magnetorheological fluid in industrial shock absorbers[J].Mechanical Systems & Signal Processing, 2012, 28(2):528-541.
[28]Antonio Lanzotti, Fabrizio Renno, Michele Russo,et al.Design and development of an automotive magnetorheological semi-active differential[J].Mechatronics, 2014, 24(5):426-435.
[29]Guo H T, Liao W H. A novel multifunctional rotary actuator with magnetorheological fluid[J].Smart Materials & Structures, 2012, 21(21):65012-65020.
[30]Chen J Z, Liao W H. Design, testing and control of a magnetorheological actuator for assistive knee braces[J].Smart Materials & Structures, 2010, 19(3):035029.
[31]卢铭涛.飞机起落架磁流变减震器的设计与试验研究[D].天津:中国民航大学,2013.
[32]张海云.两级径向流磁流变阀结构设计与性能研究[D].江西:华东交通大学,2016.
[33]胡国良,喻理梵,李海燕,等.双线圈磁流变阀压降特性分析[J].机床与液压,2013,41(19):133-136.
[34]吴张永,王京涛,王娴,等.基于磁流变液的磁流变阀设计与研究[J].昆明理工大学学报(自然科学版),2012,37(4):48-51.
[35]马良旭.电动汽车磁流变液制动系统的研究与开发[D].北京:清华大学,2016.
[36]尹韶辉,徐志强,陈逢军,等.小口径非球面斜轴磁流变抛光技术[J].机械工程学报,2013,49(17):33-38.
[37]Anon.Magnetorheological fluids change army uniform to armor[J].Advanced Materials and Processes, 2004, 162(2):21 -22.
[38]Marathe S, Gandhi F, Wang K W.Characterization an analysis of magnetrhedogical damper behavior due to sinusoidal loading[C]//Proc of SPIE.Washton: SPIE, 1998: 390-401.
[39]黄继.含磁流变阻尼器自动武器缓冲系统控制理论与技术的研究[D].山西:中北大学,2011.
[40]常娟.引信磁流变液延期解除保险机构研究[D].江苏:南京理工大学,2007.
[41]陆静,王炅,常娟.引信旋转式磁流变液延期解除保险机构研究[J].探测与控制学报,2009,31(03):14-18.
[42]赵亚楠.中大口径炮弹引信磁流变液延期解除保险机构研究[D].江苏:南京理工大学,2013.
[43]郑彩军.小口径引信磁流变延期解除保险机构的设计研究[D].江苏:南京理工大学,2012.
[44]常辉,代俊,张继豪,等.基于磁流变脂的微型磁电发电机转速控制[J].探测与控制学报, 2018, 40(4):57-61.
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