Publication: Shear elasticity of isotropic magnetic gels
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Date
2017-08-07
Authors
Lopez-Lopez, M. T.
Borin, D. Yu.
Zubarev, A. Yu.
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Volume Title
Publisher
American Physical Society
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Abstract
The paper deals with a theoretical study of the effective shear modulus of a magnetic gel, consisting of magnetizable particles randomly and isotropically distributed in an elastic matrix. The effect of an external magnetic field on the composite modulus is the focus of our consideration. We take into account that magnetic interaction between the particles can induce their spatial rearrangement and lead to internal anisotropy of the system. Our results show that, if this magnetically induced anisotropy is insignificant, the applied field reduces the total shear modulus of the composite. Strong anisotropy can qualitatively change the magnetomechanic effect and induce an increase of this modulus with the field.
Description
MeSH Terms
Anisotropy
Magnetics
Models, Theoretical
Magnetic Fields
Magnetic Phenomena
Magnetics
Models, Theoretical
Magnetic Fields
Magnetic Phenomena
DeCS Terms
Anisotropía
Campos magnéticos
Fenómenos magnéticos
Magnetismo
Modelos teóricos
Campos magnéticos
Fenómenos magnéticos
Magnetismo
Modelos teóricos
CIE Terms
Keywords
Magnetorheological elastomers, Field, Composites, Particles, Hydrogel
Citation
Lopez-Lopez MT, Borin DY, Zubarev AY. Shear elasticity of isotropic magnetic gels. Phys Rev E. 2017 Aug;96(2-1):18