A. V. Bakhtiiarov scite author profile

Hybrid magnetic elastomers belonging to the family of magnetorheological elastomers contain magnetically hard components and are of the utmost interest for the development of semiactive and active damping devices as well as actuators and sensors. The processes of magnetizing of such elastomers are accompanied by structural rearrangements inside the material. When magnetized, the elastomer gains its own magnetic moment resulting in changes of its magneto-mechanical properties, which remain permanent, even in the absence of external magnetic fields. Influenced by the magnetic field, magnetized particles move inside the matrix forming chain-like structures. In addition, the magnetically hard particles can rotate to align their magnetic moments with the new direction of the external field. Such an elastomer cannot be demagnetized by the application of a reverse field.

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Magnetorheological Effect of Magnetoactive Elastomer with a Permalloy Filler

Borin

Степанов

Musikhin

et al. 2020

Polymers

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Within the frames of this study, the synthesis of a permalloy to be used as a filler for magnetoactive and magnetorheological elastomers (MAEs and MREs) was carried out. By means of the mechanochemical method, an alloy with the composition 75 wt.% of Fe and 25 wt.% of Ni was obtained. The powder of the product was utilized in the synthesis of MAEs. Study of the magnetorheological (MR) properties of the elastomer showed that in a ~400 mT magnetic field the shear modulus of the MAE increased by a factor of ~200, exhibiting an absolute value of ~8 MPa. Furthermore, we obtained experimentally a relative high loss factor for the studied composite; this relates to the size and morphology of the synthesized powder. The composite with such properties is a very perspective material for magnetocontrollable damping devices. Under the action of an external magnetic field, chain-like structures are formed inside the elastomeric matrix, which is the main determining factor for obtaining a high MR effect. The effect of chain-like structures formation is most pronounced in the region of small strains, since structures are partially destroyed at large strains. A proposed theoretical model based on chain formation sufficiently well describes the experimentally observed MR effect. The peculiarity of the model is that chains of aggregates of particles, instead of individual particles, are considered.

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Negative coercivity of magnetic elastomers filled with magnetically hard particles

Степанов

Borin

Bakhtiiarov

et al. 2020

Journal of Magnetism and Magnetic Materials

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Magnetoresistive Effect in Magnetoactive Elastomers

Степанов

Semerenko

Bakhtiiarov

et al. 2012

J Supercond Nov Magn

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Influence of the size of magnetic filler particles on the properties of hybrid magnetic elastomer with magnetically hard filler

Степанов

Borin

Bakhtiiarov

et al. 2020

Journal of Magnetism and Magnetic Materials

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A. V. Bakhtiiarov

Magnetic properties of hybrid elastomers with magnetically hard fillers: rotation of particles

Magnetorheological Effect of Magnetoactive Elastomer with a Permalloy Filler

Negative coercivity of magnetic elastomers filled with magnetically hard particles

Magnetoresistive Effect in Magnetoactive Elastomers

Influence of the size of magnetic filler particles on the properties of hybrid magnetic elastomer with magnetically hard filler

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