Anisotropic Silicone Rubber Based Magnetorheological Elastomer with Oil Silicone and Iron Microparticles

I. Bica; Maria Balasoiu; A.I. Kuklin

doi:10.4028/www.scientific.net/SSP.190.645

Paper Titles

Model of a Thin Rod with Viscoelastic Magnetizablematerial in the Alternating Magnetic Field
p.629

Magnetic Properties Variations in Iron Complexes with Benzimidazole Derivatives Depending on the System Spin State
p.633

Magnetic Hydrogels: Magnetic and Mechanical Measurements
p.637

Structure Properties of Polydisperse Magnetic Fluids
p.641

Anisotropic Silicone Rubber Based Magnetorheological Elastomer with Oil Silicone and Iron Microparticles
p.645

Extension of the Working Temperature Range of Magnetic Fluid Susceptibility Measurements
p.649

Dynamics of a Dielectric Microdrop Suspended in a Magnetic Fluid in Electric and Magnetic Fields
p.653

Non-Equilibrium Magnetization of a Dilute Suspension of Brownian Magnetic Particles
p.657

Effect of Electron Irradiation on the Non-Stoichiometric and Doped Lanthanum Manganites
p.663

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Anisotropic Silicone Rubber Based Magnetorheological Elastomer with Oil Silicone and Iron Microparticles

Abstract:

Results on anisotropic magnetorheological elastomers magnetoelasticity are presented and discussed. In the dipole approximation, and considering the MRE as a continuous linear body, the effects of magnetic field on its main elastic properties (linear deformations and Young module) are investigated. Experimental evidences that the compression of the cylindrical bar is influenced by the intensity of the longitudinal magnetic field and the Young module of the MRE sample increases with the intensity H of the longitudinal magnetic field are obtained and the results discussed.