WINSLOW W M. Induced fibration of suspensions[J]. J Appl Phys, 1999, 20: 1137.
[2]
KLASS D L, MARTINEK T W. Electroviscous fluids[J]. J Appl Phys, 1967, 38: 67.
[3]
TAO R, SUN J M. Three-dimensional structure of induced ER solid[J]. Phys Review Letters, 1991, 57(3):398-401.
[4]
JOHNSON ANDREW R, BULLOUGH WILLIAM A, M J. Dynamic modeling and performance of a high-speedelectrorheological traversing mechanism[A] . Proceedings of SPIE Society of Photo-Optical InstrumentationEngineers[C]. Belhngham, WA, USA, 1997. 516-527.
[5]
HANS K T. ERF based precision linear drive system[A]. Electrorheological Fluid[M]. R Tao. Singapore: WorldSingapore Science, 1994. 515-524.
[6]
STANWAY R, SPROSTON J L, EI-WAHED A K. Applications of electro-rheological fluids in vibration control:a survey [J]. Smart Materials and Structures, 1996, 5, 463-482.
[7]
PHILLIPS R W. Engineering applications of fluids with a variable yield stress[D]. California University ofCalifornia, 1969.
[8]
BROOKS D A. Applicability of simplified expressions for design with electro-rheological fluids[J]. Journal ofIntelligent Material Systems and Structures, 1993, 4(3): 409-414.
[9]
TAKES UE, NAOYUKI. Precise position control of robot arms using a homogeneous ER fluid[J]. IEEE ControlSystems Magazine, 1999, 19(2): 55-60.
[10]
LI Tie-jun. Research on robot soft fingertip with semiactive behavior[J]. Zhongguo Jixie Gongcheng/ChinaMechanical Engineering, 1998, 9(1): 10-12.
[11]
MASAMI Nakano, TAKUYA Yonekawa. Active damper using electrorheological suspension and its application to vibration isolation control[J]. Transactions of the Japan Society of Mechanical Engineers, Part C, 1996, 62(593): 33-40.
[12]
COULTER J P, WEISS K D, DAVID C J. Engineering applications of electrorheological materials[J]. Journalof Intelligent Material Systems and Structures, 1993, 4(2): 248-259.
[13]
HARTEL V. Spring Element with Hydraulic Damping[P]. US Patent, 4773632, 1988.
[14]
SHIN Morishita. Jun'ichi Mitsui. Controllable squeeze film damper[J]. ASME Journal of Vibration and Acoustics,1992, 114(3): 354-357.
[15]
DON D L, COULTER J P. Analytical and experimental investigation of electrorheological material basedadaptive beam structures[J]. Journal of Intelligent Material Systems and Structures, 1995, 6(6): 846-853.
[16]
HIDENORI Shinno, HTTOSHI Hashizume. Nanometer position of a linear moter-driven ultraprecision aerostatictable system with electrorheological fluid dampers[J]. Ann of CIRP, 1999, 48(1): 289-291.
[17]
WANG Min, FEI Renyuan. Improvement of machining stability using a tunable-stiffness boring bar containing anelectrorheololgical fluid[J]. Smart Mater Struc, 1999, 8: 511-514.
