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Vol. 28. Issue 2.
Pages 155-161 (July - December 2016)
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Vol. 28. Issue 2.
Pages 155-161 (July - December 2016)
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Improved mechanical properties of magneto rheological elastomeric composite with isotropic iron filler distribution
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Sneha Samala,b,
Corresponding author
, Jarmil Vlacha, Pavel Kavana
a The Centre for the Development of Engineering Research VÚTS, a.s, Liberec 460 01, Czech Republic
b Technical University of Liberec, Studentská 1402/2,461 17 Liberec 1, Czech Republic
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Abstract

In this work, mechanical property of magneto rheological elastomeric (MREs) composite is investigated using iron as filler distribution. The MREs composite were fabricated using irregular shaped iron particles with size range varies from 50 -150μm in matrix of elastomeric polymer. The matrix such as ZA22 was considered with 1:1 catalyst ratio as the binder with 30 Vol % of filler content. The fillers were incorporated within the matrix of elastomer using silicon oil as additive binder in the composite. The open circuit solenoid coil was designed as the magnetic circuit for magnetic flux intensity. Various magnetic field intensities were induced to observe the mechanical properties of the MREs composites. Hysteresis loss was observed in MRE samples due to dissipation of energy during compression of the composite material. Improved engineering strength of the MRE is observed on varying magnetic field of intensity and constant at 0.3 Tesla.

Keywords:
iron filler
magneto rheological elastomer
magnetic field intensity
isotropic distribution
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References
[1]
J.D. Carlson, M.R. Jolly.
Mechatronics, 10 (2000), pp. 555
[2]
J.M. Ginder, M.E. Nichlos, L.D. Elie, J.L. Tardiff.
Magnetorheological elastomers: properties and applications, SPIE, 3675 (1999), pp. 131-138
[3]
M. Kallio.
VTT publications, (2005), pp. 146
[4]
M. Farshad, A. Benine.
Polym. Test., 23 (2004), pp. 347
[5]
M. Lokander, Performance of magnetorheological rubber materials, PhD thesis (2004), KTH, Stockholm.
[6]
H.X. Deng, L.X. Gong.
Polym. Test., 24 (2005), pp. 669
[7]
S. Samal, J. Vlach, P. Kavan, ICSAAM 2015, The 6th International conference on structural analysis of advanced materials, 8-11 September, Porto, Portugal, ISBN: 978-972-8826.
[8]
J. Kaleta, M. Krolewicz, D. Lewandowski.
Smart Mater. Struct., 20 (2011), pp. 085006
[9]
Y. Wang, Y. Hu, L. Chen, X. Gong, W. Jiang, P. Zhang, Z. Chen.
Polym. Test., 25 (2006),
262-7
[10]
E. Guth.
J. Appl Phys, 16 (1945), pp. 20
[11]
R. Jongschaap, J. Mellema, J. Rheol. 39 (1195) 593.
Copyright © 2016. Portuguese Society of Materials (SPM)
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