引文
[1]Rabinow J.The magnetic fluid clutch[J].AIEE Transaction,1948,67:1308-1315.
[2]Mezzasalma S A,Koper G J M.Semiclassical approachto electrorheological fluids.Influence of solid volumefraction on the suspension yield stress[J].Colloid Polym Sci,2002,280:160-166.
[3]Ginder J M,Davis L C,Elie L D.Rheology of mag-netorheological fluids:models and measurements[A].5th Int Conf on ER fluids and MR Suspensions[C].Singapore:World Scientific,1995.504-514.
[4]Kormann C,Laun H M,Richter H J.MR suspensionsand associated technology[A].Bullogh W A.Procof the5th Int Conf on ER Fluids[C].Singapore:World Scientific,1996.362-367.
[5]Kordonsky W I,Demchuk S A.Bullogh WAed Proc of the 5th Int Confon ER Fluids,MR Suspensions and Associated Technology[C].Singapore:World Scientific,1996.613-619.
[6]Cutillas S,Bossis G,Cebers A.Rheological properties of MR fluids[J].Phys Rev E,1998,57(1):804-811.
[7]司鹄,彭向和.磁流变材料的流变性能研究[J].材料科学与工程,2002,20(1):61-63.SI Hu,PENG Xiang He.Study on the rheological properties of magnetorheological materials[J].Journal of Materials Science and Engineering.2002,20(1):61-63(In Chinese).
[8]关新春,欧进萍.磁流变液的配制及其流变模型的研究[J].功能材料,2004(35):577-581.GUAN Xin Chun,OU Jin Ping.Magnetorheological fluid preparation and rheological model[J].Journal of Functional Materials.2004(35):577-581(In Chinese).
[9]唐新鲁.有关电流变液、磁流变液机理若干问题的研究[D].合肥:中国科学技术大学,1996:86-102.TANG Xin Lu.Research on electrorheological fluids and magnetorheological fluid mechanics problems[D].Hefei:University of Science and Technology of China,1996:86-102(In Chinese).
[10]Shiga T,Okada A,Kurauchi T.[J].Journal of Applied Polymer Science,1995,58:787-792.
[11]Jolly M R,Carlson J D,Munoz B C,et al.[J].Journalof Intelligent Material Systems and Structures,1996,7:613-622.
[12]Ginder J M,Clark S M,Schlotter W Fl.[J].In-ternational Journal of Modern Physics B,2002,16:2412-2418.
[13]Bossis.G,Abbo.C.Electro active and Electrostructured Elastomers.International Journal of Modern Physics B,2001,15(6&7):564-573.
[14]王桦,周刚毅,方生,等.磁流变弹性体剪切性能的动态实验研究[J].实验力学,2004,19(01):01-05.WANG Ye,ZHOU Gang Yi,FANG Sheng et al.Experimental study on dynamic shear properties of Magnetorheological Elastomers[J].Journal of Experimental Mechanics,2004,19(01):01-05(In Chinese).
[15]方生,龚兴龙,张先舟等.磁流变弹性体力学性能的测试与分析[J].中国科学技术大学学报,2004,34(04):456-463.FANG Sheng,GONG Xing Long,ZHANG Xian Zhou et al.Test and analysis of performance of magnetorheological elastomer[J].University of Science and Technology of China.2004,34(04):456-463(In Chinese).
[16]张先舟.磁流变弹性体的研制及其机理研究[D].合肥:中国科学技术大学,2005:39-88.ZHANG Xian Zhou.Study on Preparation and mechanism of magnetorheological elastomer[D].Hefei:University of Science and Technology of China,2005:39-88(In Chinese).
[17]汪建晓,孟光.磁流变液装置及其在机械工程中的应用[J].机械强度.2001,23(1):50-56.WANG Jian Xiao,MENG Guang.Magnetorheological fluid devices and applications on mechanical engineering[J].Journal of Mechanical Strength.2001,23(1):50-56(In Chinese).
[18]Lou,Z.Ervin,R.D.,Filisko,F.E.,A Preliminary Parametric Study Of Electrorheological Damper,Trans.ASME,Journal of Fluid Engineering,Vol.116,1994:570-577.
[19]Mark R.Jolly,Jonathan W.Bender and J.D.Carlson,Properties andapplications of Commercial Magnetorheological Fluid,SPIE,Vol.3327,1998:262-275.
[20]关新春,欧进萍.磁流变耗能器的阻尼力模型及其参数确定[J].振动与冲击.2001,20(1):05-08.GUAN Xin Chun,OU Jin Ping.To determine the damping force model and parameter of magnetorheological dampers[J].Journal of Vibration and Shock.2001,20(1):05-08.(In Chinese).
[21]瞿伟廉,刘嘉.500k N磁流变阻尼器设计的关键技术[J].地震工程与工程振动,2007,27(2):124-130.QU Wei Lian,LIU Jia.The key technology of 500k N full-scale magnetorheological fluid damper design[J].Journal of Earthquake Engineering and Engineering Vibration2007,27(2):124-130(In Chinese).
[22]李赵春,朱超.火炮磁流变阻尼器结构设计与优化[J].机械设计.2012.29(11):58-62.LI Zhao Chun,ZHU Chao.Design and optimization of gun magnetorheological damper structure[J].Journal of Machine Design.2012:58-62(In Chinese).
[23]Andrew,N.,Vavreck.Control of adynamics vibration absorber with magnetorheological damping[J].SPIE,Vol.4073,2000,252-263.
[24]陈进新,王宇.一种可应用于小阻尼力领域的新型磁流变液阻尼器[J].振动与冲击,2009,28(02):189-195.CHENG Jin Xin,WANG Yu.A small damping force model of magnetorheological fluid damper[J].Journal of Vibration and Shock,2009,28(02):189-195(In Chinese).
[25]杨涛,赵杰.磁流变阻尼器的设计和磁路研究[J].哈尔滨商业大学学报:自然科学版,2012,28(05):636-642.YANG Tao,ZHAO Jie.Design and Study on magnetic circuit of magnetorheological damper[J].Journal of Harbin University of Commerce:Natural Science Edition,2012,28(05):636-642(In Chinese).
[26]Ulicny J C,Mance A M.Evaluation of electroless nickel surface treatment for iron powder used in MR fluids[J].Materials Science and Engineering,2004,369(1-2):309-313.
[27]Gopalswamy S.Magneto-rheological transmission clutch[P].US Patent,5896965,l999-04-27.
[28]黄金.磁流变液与磁流变器件的分析与设计[D].重庆:重庆大学.2006:47-79.HUANG Jin.Analysis and design of the magnetorheological fluid and the magnetorheological device[D].Chongqing:Chongqing University,2006:47-79(In Chinese).
[29]孟维佳.双平板式磁流变液离合器的研究设计[D].哈尔滨:哈尔滨工业大学,2006:32-38.MENG Wei Jia.Study and design of a double flat plate type magneto rheological fluid clutch[D].Harbin:Harbin Institute of Technology,2006:32-38(In Chinese).
[30]徐国梁,陈锵,江万权,等.径向自加压磁流变液离合器[P].中国发明专利.CN00104451.6,2002-01-16.XU Guo Liang,CHEN Qiang,JIANG Wan Quan et al.Radial self pressurized magnetorheological fluid clutch[P].China Patent.CN00104451.6,2002-01-16(In Chinese).
[31]王维民.变刚度波纹管联轴器设计[P].中国发明专利.CN03119420.6,2003-11-19.WANG Wei Min.Design of variable stiffness bellows coupling[P].China Patent.CN03119420.6,2003-11-19(In Chinese).
[32]李名杰,李友荣.筒式磁流变液联轴器设计与实验研究[J].武汉科技大学学报,2009,33(06):624-627.LI Ming Jie,LI YouRong.Design and experimental research of Cylinder magneto rheological fluid coupling[J].Journal of Wuhan University of Science and Technology,2009,10(05):35-41(In Chinese).
[33]雷阳,李友荣.永磁型磁流变液极限转矩联轴器的设计分析[J].机械科学与技术,2012,31(02):294-299.LEI Yang,LI YouRong.Design and analysis of permanent magnet type magnetic rheological liquid limit torque coupling[J].Journal of Mechanical Science and Technology,2012,31(02):294-299(In Chinese).
[34]Lord Corporation,http://www.rheonetic.com/fluid_begin.htm.
[35]Kordousky W I,Garodkin S R.Magnetorheologieal Valve and Devices Incorpemtion Magnetorheological Elements.U.S.Patent5353839,1994:06-17.
[36]Tang X,Zhang X.Flexible Fixture with Magnetorheological Fluids[C].In:Tao R,Proc.of the7th Int.Conf.on ER Fluids and MR Suspensions.Singapore:World Scientific,2000:712-720.
[37]J.R.Watson.In:Patent US ed:5609353[P];1997-04-29.
[38]Ginder J M,Nichols M E,Elie L D,et al.[J].Pro-ceedings of SPIE,2000,3985:418-425.
[39]曹宽宽,邓益民,叶伟强.基于磁流变弹性体的汽车减振系统仿真分析[J].机电工程,2010,27(3):25-29.CAO Kuan Kuan,DENG Yi Min,YE Wei Qiang.Simulation analysis of vehicle vibration reduction system based on magnetorheological elastomer[J].Journal of Electrical and Mechanical Engineering,2010,27(3):25-29(In Chinese).
[40]Hoang N,Zhang N,Du H.A novel dynamic absorber using enhanced magnetorheological elastomers for powertrain vibration control[J].Multi-Functional Materials and Structures,2008,27(3):25-28.
[41]龚兴龙,邓华夏,等.磁流变弹性体及其半主动吸振技术[J].中国科学技术大学学报,2007,37(10):1192-1200.GONG Xing Long,DENG Hua Xia,et al.Semi active vibration absorber technology of magnetorheological elastomer[J].University of Science and Technology of China,2007,37(10):1192-1200(In Chinese).
[42]邓华夏,龚兴龙,张培强.刚度和阻尼均可控的减震器[P].中国专利,CN200520070319,2005-04-01.DENG Hua Xia,GONG Xing Long,ZHANG Pei Qiang.The shock absorber of damping and stiffness Under control[P].China patent,CN200520070319.2005-04-01(In Chinese).
[43]Xu Z.B,Gong X.L,Liao G.J,et al.An Active-dampingcompensated Magnetorheological Elastomer Adaptive Tuned Vibration Absorber[J].Journal of Intelligent Material Systems and Structures,2010,21:1039-1047.
[44]王世旺,汪建晓.剪切式磁流变弹性体阻尼器力学性能研究[J].佛山科学技术学院学报:自然科学版,2007,25(5):17-20.WANG Shi Wang,WANG Jian Xiao.Study on the mechanical performance of shear magnetorheological elastomer damper[J].Journal of Foshan University:Natural Science Edition,2007,25(5):17-20(In Chinese).
[45]汪建晓,王世旺,孟光.挤压式磁流变弹性体阻尼器-转子系统的振动特性试验[J].航空学报,2008,29(1):91-94.WANG Jian Xiao,WANG Shi Wang,MENG Guang.Experimental study on vibration characteristics of squeeze mode MR elastomer damper and rotor system[J].Chinese Journal of Aeronautics,2008,29(1):91-94(In Chinese).
[46]Tu Jian,Wu Ping,Ren Wei.Magnetic Finite Element Analysis of The Intelligent Laminated MRE Isolator.11th World Conference on Seismic Isolation,Energy Dissipation and Active Vibration Control of Structures,Guangzhou,China,Nov.17-21,2009.
[47]余淼,董小闵,张红辉.基于磁流变技术的并联式隔振缓冲器[P].中国发明专利,ZL200710092716.9,2007-09-27.YU Miao,DONG Xiao Min,ZHANG Hong Hui.Parallel type vibration isolation buffer based on magneto rheological Technology[P].Invention Patent,ZL200710092716.9,2007-09-27(In Chinese).
[48]毛林章.基于磁流变技术的登月缓冲装置研究[D].重庆:重庆大学,2007:37-62.MAO Lin Zhang.The lunar landing buffer device based on magneto rheological Technology[D].Chongqing:Chongqing University,2007:37-62(In Chinese).
[49]胡宗成.舰用磁流变弹性体隔振器设计及性能分析[J].噪声与振动控制,2013,39(04):449-455.HU Zong Cheng.magnetorheological elastomer vibration isolator design and performance analysis[J].Noise and Vibration Control,2013,39(04):449-455(In Chinese).
[50]魏克湘,孟光.磁流变弹性体隔振器的设计与振动特性分析[J].机械工程学报.2011,47(11):69-73.WEI Ke Xiang,MENG Guang.Design and analysis of vibration characteristics of magnetorheological elastomer vibration isolator[J].Journal of Mechanical Engineering,2011,47(11):69-73(In Chinese).
[51]王威,邓益民.磁流变弹性体变刚度隔振系统设计与仿真分析[J].机械制造,2011,49(568):22-25.WANG Wei,DENG Yi Min.Design and simulation analysis of variable stiffness vibration isolation system of magneto rheological elastomer[J].Journal of Machinery Manufacturing,2011,49(568):22-25(In Chinese).
[52]Bednarek S..The giant magnetostriction in ferromagnetic composites within an elastomer matrix[J].Applied Physics A:Materials Science&Processing,1999,68(1):63-67.
[53]叶伟强,邓益民,王威.磁流变弹性体压阻特性实验装置的设计与实验研究[J].传感器与微系统,2011,30(3):43-45.YE Wei Qiang,DENG Yi Min,WANG Wei.Design and experimental study on the piezoresistivity of magnetorheological elastomers experimental device[J].Journal of Sensor and Micro System,2011,30(3):43-45(In Chinese).
[54]Farshad M,Benine A.Magnetoactive elastomer composites[J].Polymer Testing,2004,23(3):347-353.
[55]Anderson D.W.Elastomer roll for papermaking machine[P].US Patent,Patent No:6544156,2003-04-08.