References
- 1. Choi S.B., Han Y.M. (2012), Magnetorheological Fluid Technology Applications in Vehicle Systems, Padstow, United States: CRC Press Taylor & Francis Group.
- 2. Choi S.B., Sung K.G. (2008), Vibration control of magnetorheological damper system subjected to parameter variations, International Journal of Vehicle Design, 45, 94–110.
- 3. El-Kafafy M., El-Demerdash S., Rabeih A. (2012), Automotive ride comfort control using MR fluid damper, Engineering, 4(4), 179–87.10.4236/eng.2012.44024
- 4. Gołdasz J., Dzierżek S. (2016), Parametric study on the performance of automotive MR shock absorbers, IOP Conf. Series: Materials Science and Engineering, 148, 012004.
- 5. Gołdasz J., Sapiński B. (2015), Insight into Magnetorheological Shock Absorbers, Springer International Publishing AG Switzerland.
- 6. Koo J.H., Goncalves F.D., Ahmadian M. (2006), A comprehensive analysis of the time response of MR dampers, Smart Materials and Structures, 15, 351–358.
- 7. Sapinski B., (2014), Energy harvesting MR linear damper: prototyping and testing, Smart Materials and Structures, 23, 035021.
- 8. Sapiński B., Jastrzębski Ł., Rosół M. (2012,) Power amplifier supporting MR fluid-based actuators, Proceedings of 13th International Carpathian Control Conference ICCC 2012, 612–616.
- 9. Sapiński B., Rosół M. (2007), MR damper performance for shock isolation, Journal of Theoretical and Applied Mechanics, 1(45), 133–146.
- 10. Strecker Z., Mazurek I., Roupec J., Klapka M. (2015), Influence of MR damper response time on semiactive suspension control efficiency, Meccanica, 50, 1949–1959.
- 11. Strecker Z., Roupec J., Mazurek I., Klapka M. (2015), Limiting factors of the response time of the magnetorheological damper, International Journal of Applied Electromagnetics and Mechanics, 47(2), 541–550.
- 12. Strecker Z., Roupec J., Mazurek I., Machacek O., Kubik M., Klapka M. (2015), Design of magnetorheological damper with short time response, Journal of Intelligent Material Systems and Structures, Special Issue Article, 1–8.
- 13. Sung K.G., Choi S.B.(2009) Vibration control of vehicle suspension featuring magnetorheological dampers: road test evaluation, Transactions of the Korean Society for Noise and Vibration Engineering, Vol. 19 (3), 235–242.
- 14. Wang D.H., Bai X.X. (2013), A magnetorheological damper with an integrated self-powered displacement sensor, Smart Materials and Structures, 22, 075001.
- 15. Wu G., Feng Z., Zhang G., Hou Z., (2011), Experimental Study on Response Time of Magnetorheological Damper, 2nd International Conference on Artificial Intelligence, Management Science and Electronic Commerce (AIMSEC), 3968–3972.
- 16. Xinchun G., Yonghu H., Yi R., Hui L., Jinping O., (2015), A novel self-powered MR damper: Theoretical and experimental analysis, Smart Materials and Structures, 24, 105033.
- 17. http://www.inteco.com.pl/