[1] Y. Iskandarani, G. A. Moslatt, E. Myklebust, J. P. Kolberg, L. L.
Solberg and H. R. Karimi, Hysteresis identification methodology for
the SAS rotational MR damper, WSEAS Transactions on Applied and
Theoretical Mechanics 6(4) (2011), 137-146.
[2] Arturo Rodriguez Tsouroukdissian, Faycal Ikhouane, Jose Rodellar
and Ningsu Luo, Modeling and identification of a small-scale
magneto-rheological damper, Journal of Intelligent Material Systems
and Structures 20(7) SAGE, (2009), 825-835.
[3] B. F. Spencer Jr., S. J. Dyke, M. K. Sain and J. D. Carlson,
Phenomenological model for magneto-rheological dampers, Journal of
Engineering Mechanics 123(3) (1997), 230-238.
[4] Thomas Avraam, MR-Fluid Brake Design and its Application to a
Portable Muscular Rehabilitation Device, Ph.D. Dissertation, Active
Structures Laboratory, Department of Mechanical Engineering and
Robotics, Universitélibre de Bruxelles, 2009.
[5] F. D. Goncalves, M. Ahmadian and J. D. Carlson, Characterizing the
behavior of magneto-rheological fluids at high velocities and high
shear rates, International Journal of Modern Physics B 19(7-9) (2005),
1395-1401.
[6] James Poynor, Innovative Designs for Magneto-Rheological Dampers,
Master’s Thesis, Advanced Vehicle Dynamics Laboratory, Virginia
Polytechnic Institute and State University, 2001.
[7] I. S. Ahin, T. Engin and S. C. Esmeci, Comparison of some existing
parametric models for magneto-rheological fluid dampers, Smart
Materials and Structures 19(3) (2010).
[8] Dariush Ghorbany, MR Damper Hysteresis Characterization for the
Semi-Active Suspension System, Master’s Thesis in Mechatronics,
Department of Engineering, Faculty of Engineering Science, University
of Agder, 2011.
[9] Hamid Reza Karimi, A Semiactive Vibration Control Design for
Suspension Systems with MR Dampers, Vibration Analysis and Control-New
Trends and Developments, Dr. Francisco Beltran-Carbajal (Ed.), ISBN:
978-953-307-433-7 (2011); InTech, Available from:
http://www.intechopen.com/books/vibration-analysis-
and-controlnew-trends-and-developments/a-semiactive-vibration-control-
design-for-suspension-systems-withmrdampers.
[10] John W. Gravatt, Magneto-Rheological Dampers for Super Sport
Motorcycle Applications, Master’s Thesis, Faculty of the Virginia
Polytechnic Institute and State University, 2003.
[11] Min-Sang Seong, Seung-Bok Choi and Kum-Gil Sung, Control
Strategies for Vehicle Suspension System Featuring Magneto-Rheological
(MR) Damper, Vibration Analysis and Control-New Trends and
Developments, Dr. Francisco Beltran-Carbajal (Ed.), ISBN:
978-953-307-433-7 (2011); InTech, Available from:
http://www.intechopen.com/books/vibration-analysis-
and-control-new-trends-and-developments/controlstrategies-for-vehicle-
suspension-system-featuring-magnetorheological-mr-damper.