[1]杨小龙,李德才,杨文明,邢斐斐,李强. 磁流体密封的磁路设计及磁场有限元分析[J]. 真空科学与技术学报,2012,10:919-922.

[2]史修江,王优强. 不同载液磁流体热弹流润滑性能对比[J]. 机械工程学报,2013,03:106-110.

[3]于海武. 基于流体动压润滑效应的表面织构优化设计[D].南京航空航天大学,2012.

[4]杨小龙,李德才,杨文明,邢斐斐,李强. 磁流体密封的磁路设计及磁场有限元分析[J]. 真空科学与技术学报,2012,10:919-922.

[5]于振燕,张玮. 磁流体密封在水轮机主轴中的应用[J]. 排灌机械工程学报,2014,02:151-155.

[6]杨小龙,李德才,杨文明,邢斐斐,崔红超. 大间隙磁流体密封的磁场有限元分析及实验验证[J]. 北京交通大学学报,2013,01:181-184.

[7]范浩亮,周剑锋,汪宇. 磁流体润滑非接触式机械密封系统的设计分析[J]. 润滑与密封,2016,01:90-95.

[8]王虎军,李德才,何新智,王四棋. 转轴转速对磁流体液体动密封耐压能力影响的实验研究[J]. 真空科学与技术学报,2016,08:945-949.

[9]姜大连,赵修臣,林文露,刘颖,吕金喜,温术来. 微米Co粒子对磁流体密封水性能的影响[J]. 润滑与密封,2015,09:120-123 127.

[10]李明生,赵建军,朱忠祥,谢斌,迟瑞娟,毛恩荣. 拖拉机电液悬挂系统模糊PID自适应控制方法[J]. 农业机械学报,2013,S2:295-300.

[11]刘幸,刘潇. 自适应控制系统的发展与应用[J]. 物联网技术,2011,07:61-63.

[12]陈浩,卢伟,赵贤林,王玲,章永年,何小杭. 基于力反馈的拖拉机驾驶机器人换挡机械手模糊PID自适应控制方法研究[J]. 南京农业大学学报,2016,01:166-174.

[13]秦奇. 飞行器纵向轨迹的L1自适应控制[D].北京理工大学,2015.

[14]杨启亮,马晓星,邢建春,胡昊,王平,韩德帅. 软件自适应:基于控制理论的方法[J]. 计算机学报,2016,11:2189-2215.

[15]H. Aminfar, M. Mohammadpourfard, Y.N. Kahnamouei. A 3D numerical simulation of mixed convection of a magnetic nanofluid in the presence of non-uniform magnetic field in a vertical tube using two phase mixture model [J]. J. Magn. Magn. Mater., 2011(323): 1963-1972.

[16]H. Aminfar, M. Mohammadpourfard, Y.N. Kahnamouei. A 3D numerical simulation of mixed convection of a magnetic nanofluid in the presence of non-uniform magnetic field in a vertical tube using two phase mixture model [J]. J. Magn. Magn. Mater., 2011(323): 1963-1972.

[17]M.T. L#243;pez-L#243;pez, P. Kuzhir, S. Lacis, et al. Magnetorheology for suspensions of solid particles dispersed in ferrofluids [J]. J. Phys.: Condens. Matter, 2006(18): S2803-S2813.

[18]S. Odenbach. Recent progress in magnetic fluid research [J]. J. Phys.: Condens. Matter, 2004(16): R1135-R1150.

[19]M. Hern#225;ndez-Contreras. Transport properties of ferrofluids [J]. Physical Review E, 2003(68): 031202.

[20]R. Sato Turtelli, R. Grossinger, C. Kussbach. Study of frequency dependencies of the complex magnetic ac-permeability aftereffect in amorphous Fe64Co21B15 and Fe8Co77B15 alloys [J]. J. Appl. Phys., 1998, 83:1581-1586.

[21]N. Umehara, I. Shibata, K. Edamura. New polishing method with magnetic congelation liquid [J]. J. Intell. Mater. Syst. Struct., 1999(10): 620-623.

[22]R.T. Bonnecaze, J.F. Brady. Yield stresses in electrorheological fluids [J]. J. Rheol., 1992(36): 73-115.

[23]Z.G. Li. Critical particle size where the Stokes-Einstein relation breaks down [J]. Physical Review E, 2009(80): 061204.

[24]R. Lindken, M. Rossi, J Westerweel. Micro-particle image velocimetry (PIV): recent developments, applications, and guidelines [J]. Lab Chip, 2009, 9(17):2551-2567.

[25]S.T. Wereley, C.D. Meinhart. Recent advances in micro-particle image velocimetry [J]. Annu. Rev. Fluid Mech., 2010, 42(1):557-576.

[26]C.V. Nguyen, J. Carberry, A. Fouras. Volumetric-correlation PIV to measure particle concentration and velocity of microflows [J]. Exp. Fluids, 2011, 52(3): 663-677.

[27]M. Speidel, A. Jon#225;s, E.L. Florin. Three-dimensional tracking of fluorescent nanoparticles with subnanometer precision by use of off-focus imaging [J]. Opt. Lett., 2003, 28(2): 69-71.

[28]Mahoney D G, Helgeland W. Magnetic fluid seal with centering of bearing and shaft by compressible member: U.S. Patent 8,382,118[P]. 2013-2-26.