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Analysis of Force in MR Fluids during Oscillatory Compression Squeeze

, 18, 095001. 4. Farjoud A., Craft M., Burke W., Ahmadian M. (2011), Experimental investigation of MR squeeze mounts, Journal of Intelligent Material Systems and Structures , 22, 1645–1652. 5. Farjoud A., Vahdati N., Fah Y. (2008), MR-fluid yield surface determination in disc-type MR rotary brakes, Smart Materials and Structures , 17(3), 1-8. 6. Gołdasz J., Sapiński B. (2015), Insight into Magnetorheological Shock Absorbers , Springer International Publishing, Switzerland. 7. Horak W. (2013), Theoretical and experimental analysis

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INVESTIGATION OF MR FLUIDS IN THE OSCILLATORY SQUEEZE MODE

. Farjoud A., Vahdati N., Fah Y. (2008), MR-fluid yield surface determination in disc-type MR rotary brakes, Smart Materials and Structures, 17, 3, 1-8. 5. Gołdasz J., Sapiński B. (2011), Model of a squeeze mode magnetorheological mount, Solid State Phenomena, 177, 116-124. 6. Gołdasz J., Sapiński B. (2011), Modelling of magnetorheological mounts in various operation modes, Acta Mechanica et Automatica, 5, 29-40. 7. Guldbakke J. M., Hesselbach, J. (2006), Development of bearings and a damper based on magnetically

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Observations of MR Fluid Clumping Behaviour in a Squeeze-Mode Damper

REFERENCES 1. Farjoud A., Ahmadian M., Cavey R. (2009a), Rheometer characterization of MR fluids in squeeze mode, Proc. SPIE 7288, Active and Passive Smart Structures and Integrated Systems , 72880R. 2. Farjoud A., Cavey R., Mehdi A., Craft M., (2009b), Magnetorheological fluid behavior in squeeze mode, Smart Materials and Structures , 18, 095001. 3. Farjoud A., Craft M., Burke W., Ahmadian M. (2011a), Experimental investigation of MR squeeze mounts. Journal of Intelligent Material Systems and Structures , 22, 1645–1652. 4

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Analysis of the Influence of Magnetic Induction Ramp Profile on Axial Force and Friction Torque Generated by MR Fluid

the squeeze strengthening effect in shear mode, J. Intell. Mater. Syst. Struct. , 27 1895–907. 8. Horak W., Salwiński J., Szczęch M. (2017a), Analysis of the influence of selected factors on the capacity of thrust sliding bearings lubricated with magnetic fluids, T ribologia , 48(4), 33–38. 9. Horak W., Salwiński J., Szczęch M . (2017b), Experimental Study on Normal Force in MR Fluids Under Low and High Shear Rates, Machine Dynamics Research , 41(1), 89-100. 10. Horak W., Salwiński J., Szczęch M. (2017c), Test stand for the examination of

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Performance of Magnetorheological Fluids Flowing Through Metal Foams

References Carlson, J.D. (2001). Sponge wrings cost from MR fluid devices. Machine Design , 22 (2), 73-76. Guldbakke, J.M., Hesselbach, J. (2006). Development of bearings and a damper based on magnetically controllable fluids. Journal of Physics: Condensed Matter , 18, S2959-S2972. Carlson, J.D., Jolly, M.R. (2000). MR fluid, foam and elastomer devices. Mechatronics , 10, 555-569. Kuzhir, P., Bossis, G. (2003). Flow of MR fluid through porous media

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Magnetostatic Analysis of a Pinch Mode Magnetorheological Valve

REFERENCES 1. Boelter R., Janocha H. (1998). Performance of long-stroke and low-stroke MR fluid dampers, 5th Annual International Symposium on Smart Structures and Materials, International Society for Optics and Photonics , 303-313. 2. Carlson J. D., Goncalves F., Catanzarite D., Dobbs D. (2007), Controllable magnetorheological fluid valve, devices, and methods , U.S. Patent Application No. 11/844, 548. 3. Gołdasz N., Sapiński B. (2015), Insight into Magnetorheological Shock Absorbers , Springer, Heidelberg. 4. Goncalves F. D

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CFD MODEL OF A MAGNETORHEOLOGICAL FLUID IN SQUEEZE MODE

W., Szczęch M. (2013), Experimental apparatus for examination of magnetic fluid lubricated thrust bearing, XXVI Symposium Fundamentals of Machine Design, Szczyrk, Poland. 9. Sapiński B., Horak W., Szczęch M. (1-4.06.2013), Investigation of MR fluids in the oscillatory squezee mode, VII -th International Symposium on Mechanics materials and Structures, Augustow, Poland. 10. Wang H., Zhang B. J., Liu X. Z., Luo D. Z., Zhong S. B. (2011), Compression resistance of magnetorheological fluid, Advanced Materials Research, 143-144, 624

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RHEOLOGICAL PROPERTIES OF MR FLUIDS RECOMMENDED FOR USE IN SHOCK ABSORBERS

B. (2011), Modeling of Magnetorheological Mounts in Various Operation Modes, Acta Mechanica and Automatica, Vol. 5, No. 4, 29-39. 5. Gorodkin S., James R., Kordonski W. (2009), Magnetic properties of carbonyl iron particles in magnetorheological fluids, Journal of Physics: Conference Series, 149(1), 1-4. 6. Jonsdottir F., Gudmundsson K. H., Dijkman T. B., Thorsteinsson F., Gutfleisch O. (2010), Rheology of perfluorinated polyether-based MR fluids with nanoparticles, Journal of Intelligent Material Systems and Structures, 21, 11

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Testing Viscosity of MR Fluid in Magnetic Field

Testing Viscosity of MR Fluid in Magnetic Field

The purpose of this paper was to determine the coefficient of viscosity of a magneto-rheological fluid for different values of the magnetic field and to determine parameters at which the flow of the fluid through a capillary is stopped. To determine the coefficient of viscosity, a method of indirect measurement was implemented using a reference fluid with the known properties. A test stand with a capillary viscometer was constructed. The measurements showed that the viscosity of the magneto-rheological fluid was linearly dependent in a wide range of values of the magnetic induction.

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Effect of the Volume of Magneto-rheological Fluid on Shear Performance

, 351-358. Duan, Y. F., Ni, Y. Q., Ko, J. M. (2006). Cable vibration control using magnetorheological (MR) dampers. J. Intell. Mater. Syst. Struct. , 17 (4), 321-325. Carlson, J. D. (2005). MR fluids and devices in the real world. Int. J. Mod. Phys. B. , 19 (7-9), 1463-1470. Liu, X. H., Wong, P. L., Wang, W., Liu, K. P. (2009). Modelling of the B-field effect on the free surface of magneto-rheological fluids. J. Phys. Conf. Ser. , 149, 012072. Shimaa, A

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