@misc{10481/67775,
year = {2017},
url = {http://hdl.handle.net/10481/67775},
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.},
organization = {A.Y.Z. is grateful for financial support from the Russian
Fund for Basic Research, through Grant No. 16-58-12003,
the Program of Russian Federation Ministry of Science and
Education, Project No. 3.1438.2017/4.6. M.T.L.-L. was supported
by Project No. FIS2013-41821-R of Plan Nacional de
Investigación Científica, Desarrollo e Innovación Tecnológica,
Ministerio de Economía y Competitividad, Spain, co-funded
by ERDF, European Union. D.Y.B. would like to acknowledge
support of from Deutsche Forschungsgemeinschaft under
Grant No. Bo 3343/1-1.},
title = {Shear elasticity of isotropic magnetic gels},
doi = {10.1103/PhysRevE.96.022605},
author = {López López, Modesto Torcuato and Borin, Dmitry and Zubarev, Andrey},
}