Application Of CFD To Modeling Of Squeeze Mode Magnetorheological Dampers

1. Case D., Taheri, B., Richer, E. (2013), Multiphysics modeling of magnetorheological dampers, The International Journal of Multiphysics, Vol. 7, No. 1, 61-76.Search in Google Scholar

2. Chen S. M., Bullough W. A., Ellam D. J. (2007), Examination of through flow in a radial ESF clutch, Journal of Intelligent Material Systems and Structures, Vol. 12, 1175–1179.Search in Google Scholar

3. de Vicente, Juan, et al. (2011), Squeeze flow magnetorheology, Journal of Rheology (1978-present), Vol. 55, No. 4, 753-779.Search in Google Scholar

4. Esmonde, H., H. See, and M. V. Swain (2009), Modelling of ER squeeze films at low amplitude oscillations, Journal of Non-Newtonian Fluid Mechanics, Vol. 161, No. 1, 101-108.Search in Google Scholar

5. Farjoud, A., Ahmadian, M., Mahmoodi, N., Zhang, X., & Craft, M. (2011), Nonlinear modeling and testing of magneto-rheological fluids in low shear rate squeezing flows, Smart Materials and Structures, Vol. 20, No. 8, 085013.Search in Google Scholar

6. Gołdasz J., Sapiński B. (2015), Insight into magnetorheological shock absorbers, Springer Publishing, Heidelberg.10.1007/978-3-319-13233-4Search in Google Scholar

7. Gstottenbauer, N., Kainz, A., Manhartsgruber, B., Scheidl, R. (2008), Experimental and numerical studies of squeeze-mode behaviour of magnetic fluid, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 22, No. 12, 2395-2407.Search in Google Scholar

8. Jolly M., Bender J. W., Carlson J. D. (1996), Properties and applications of magnetorheological fluids, Proceedings of the SPIE Conference of the International Society of Optical Engineers, Vol. 3327, 262–275.Search in Google Scholar

9. Jolly M., Carlson J. D. (1996), Controllable squeeze-film damping using magnetorheological fluids, Proceedings of the 5^thInternational Conference on New Actuators, Bremen, 333–336.Search in Google Scholar

10. Kieburg Ch. (2010), MR Fluid Basonetic 4035, BASF Technical Information.Search in Google Scholar

11. Sapiński, B., Szczęch, M. (2013), CFD model of a magnetorheological fluid in squeeze mode, acta mechanica et automatica, Vol. 7, No. 3, 180-183.Search in Google Scholar

12. Sproston J. L., Rigby S. G., Wiliams E. W., Stanway R. (1994), A numerical simulation of electrorheological fluids in oscillatory compressive squeeze-flow, Journal of Physics D: Applied Physics, Vol. 2, No. 27, 338–340.Search in Google Scholar

13. Tannehill J. C., Anderson D. A., Pletcher R. H. (1996), Computational fluid mechanics and heat transfer. Taylor and Francis, New York.Search in Google Scholar

14. Zhang X. J., Farjoud A., Ahmadian M, Guo K. H., Craft M. (2011), Dynamic testing and modeling of an MR squeeze mount, Journal of Intelligent Material Systems and Structures, Vol. 22, No. 15, 1717–1728.Search in Google Scholar

15. Zheng, J., Li, Z., Koo, J., Wang, J. (2014), Magnetic circuit design and multiphysics analysis of a novel MR damper for applications under high velocity. Advances in Mechanical Engineering, Vol. 2014, 402501.10.1155/2014/402501Search in Google Scholar