Abstract
The present work is devoted to experimental analysis of the magnetorheological elastomer composite behavior under dynamic loading. The elastomer is charged to 40% of ferromagnetic particles. The characterization of the rheological properties was performed and the relation between the loads and the applied magnetic field has been studied. The results found show that this composite presents strong energy dissipation, further accentuated by the structure and the magnetic field.
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References
Sullivan J, Demery V (1982) The nonlinear viscoelastic behaviour of a carbon-blackfilled elastomer. J Polym Sci Polym Phys Ed 20:2083–2101
Liang J, Li R, Tjong S (1999) Effect of glass bead content and surface treatment on viscoelasticity of filled polypropylene/elastomer hybrid composites. Polym Int 48:1068–1072
Demchuk S, Kuz’min V (2002) Viscoelastic properties of magnetorheological elastomers in the regime of dynamic deformations. J Eng Phys Thermophys 75(2):396–400
Zhou G (2003) Shear properties of a magnetorheological elastomer. Smart Mater Struct 12:139–146
Zhou G, Li J (2003) Dynamic behaviour of a megnetorheological elastomer under uniaxial deformation: I. Experiment. Smart Mater Struct 12:859–872
Carlson JD, Jolly MR (2000) MR fluid, foam and elastomer devices. Mechatronics 10:555–569
Farshad M, Benine A (2004) Magnetoactive elastomer composites. Polym Test 23:347–353
Zhou GY (2003) Shear properties of magnetorheological elastomer. Smart Mater Struct 12:139–146
Tumanski S (2006) Handbook of magnetic measurements. CRC Press Taylor & Francis Group, Boca Raton
Fiorillo F (2004) Measurement and characterization of magnetic materials. Elsevier Academic Press, New York
Valery PM, Alexey MB (2017) Active vibration isolation platform on base of magnetorheological elastomers. J Magn Magn Mater 431(1):266–268
Mirosław B, Jerzy KA, Daniel L, Michał P (2017) Tunable Absorption System based on magnetorheological elastomers and Halbach array: design and testing. J Magn Magn Mater 435(1):46–57
Mateusz K, Jan G, Ireneusz M, Krzysztof T, Paweł T (2017) The determination of mechanical properties of magnetorheological elastomers (MREs). Procedia Eng 177:324–330
Guojiang L, Yangguang X, Fengjun W, Fayuan W, Qiang W (2016) Influence of γ radiation on the shear modulus of magnetorheological elastomer. Mater Lett 174:79–81
Schümann M, Morich J, Kaufhold T, Böhm V, Zimmermann K, Odenbach S (2018) A mechanical characterisation on multiple timescales of electroconductive magnetorheological elastomers. J Magn Magn Mater 453(1):198–205
Agirre-Olabide I (2018) Elejabarrieta MJ A new magneto-dynamic compression technique for magnetorheological elastomers at high frequencies. Polym Test 66:114–121
Bunoiu M, Neamțu J, Chirigiu L, Bălășoiu M, Pascu G, Bica I, Chirigiu LME (2017) Hybrid magnetorheological elastomers: effects of the magnetic field on some electrical properties. Appl Surf Sci 424(3):282–289
Schümann M, Odenbach S (2017) In-situ observation of the particle microstructure of magnetorheological elastomers in presence of mechanical strain and magnetic fields. J Magn Magn Mater 441(1):88–92
Zhenlong X, Tong J, Fugen W (2018) Magnetorheological elastomer vibration isolation of tunable three-dimensional locally resonant acoustic metamaterial. Solid State Commun 271:51–55
Marc-André K, Matthias R (2017) Computational and analytical investigations of shape effects in the experimental characterization of magnetorheological elastomers. Int J Solids Struct 121:1–20
Acknowledgments
Thanks to Laboratory of Condensed Matter Physics (LPMC) University of Nice - Sophia Antipolis - France, for providing various supports for this study. We are also grateful to Messrs George Bossis Research Director Emeritus and Dr. Kuzhir Pavel of LPMC, for their help.
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Nedjar, A., Aguib, S., Djedid, T. et al. Analysis of the Dynamic Behavior of Magnetorheological Elastomer Composite: Elaboration and Identification of Rheological Properties. Silicon 11, 1287–1293 (2019). https://doi.org/10.1007/s12633-018-9921-1
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DOI: https://doi.org/10.1007/s12633-018-9921-1