Thermoresistance and giant magnetoresistance of magnetorheological elastomers

Kchit, Nadir; Lançon, Pascal; Bossis, Georges

doi:10.1088/0022-3727/42/10/105506

Cited by 54 publications

(72 citation statements)

References 13 publications

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“…The addition of the conductive doping is the most common method for improving the conductivity of the MR materials [23][24][25]. Li et al developed the high performance MREs with excellent mechanical and electrical properties by using graphite 5 as the additive [26,27].…”

Section: Introductionmentioning

confidence: 99%

Magnetic field dependent electro-conductivity of the graphite doped magnetorheological plastomers

et al. 2015

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In this work we reported a novel graphite doped conductive magnetorheological plastomer (GMRP) with magnetic field dependent electro-conductivity. The conductivity of the GMRPs increased by increasing the content of the graphite particles, while it decreased with the graphite size. When the graphite content reached 15 wt%, the conductivity of GMRPs is approximately 10 000 times higher than the non-doped MRP. Because the iron particles in the GMRPs were magnetic, the conductivity of the GMRPs was magnetically sensitive. Upon applying a 780 mT magnetic field, the electric conductivity could increase about 1000 times larger than the one under zero magnetic field. A particle-particle resistance model was developed to investigate the influence of the magnetic field and graphite doping on the conductivity, and the fitting curve matched the experimental results very well. Finally, a magnetically controllable on-off switch based on GMRPs was proposed and its working mechanism was discussed.

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Section: Introductionmentioning

confidence: 99%

Magnetic field dependent electro-conductivity of the graphite doped magnetorheological plastomers

et al. 2015

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“…In spite of this logical prediction, the coupling between the magnetization status and the resistance in magnetic elastomers was rarely investigated. 14,15 This paper reports a magneto-piezoresistance (MPR) effect in an elastomagnetic composite that gives a resistance decrement of about 60% under a magnetic induction field gradient of 3 T/m. The investigated composites were bar shaped samples made of Ni microparticles (Ni MPs) dispersed into a silicone matrix, in a volume fraction (vol%) of about 40%.…”

Section: Introductionmentioning

confidence: 99%

Magneto-piezoresistance in elastomagnetic composites

Ausanio

Hison

Iannotti

et al. 2011

Journal of Applied Physics

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A model for the dependence of the electrical conductance, G, with the strain induced by external mechanical stress in conducting particles-polymer composites is presented. The model assumes that the percolation probability between neighboring particles must depart from a scale-invariant behavior but saturate at moderated-high strains, reaching percolation path's saturation, with sigmoid dependence. This dependence is obtained by proposing a dynamic picture where contacts or bonds between neighboring particles are created but also destructed when a stress is applied and relatively moderated or high strains, , are produced in the composite. The electrical conductance of prepared graphite-polydimethylsiloxane composites were measured as function of the applied pressure and fitted by the presented model. The elastic response to the uniaxial compression was studied using a texture analyzer. The possibility of nonuniversal effects in the conduction critical exponent, t, was taken into account. It is concluded that the saturation of the response in the G versus plots cannot be assigned to nonuniversal behavior of the exponent t, or to saturation of the elastic response. On the other hand, the presented model accounts for all the main experimental features observed in these systems and for previously reported data of elastomer composites. The simulated behavior of the piezoresistivity coefficient is also in qualitative agreement with previous reports.

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“…The iron microparticles are connected to the polymer chains of the elastic matrix [3,9,13,23,25]. Then, due to the action of F, the elastic matrix reacts with the elastic force F el .…”

Section: Denotinǧmentioning

confidence: 99%

“…It has been recently shown that MRSs modify their conductivity by compression [22,23], heating [24], under the influence of an external magnetic field [25].…”

Section: Introductionmentioning

confidence: 99%

Magnetorheological elastomer-based quadrupolar element of electric circuits

Bîcă

2010

Materials Science and Engineering: B

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Thermoresistance and giant magnetoresistance of magnetorheological elastomers

Cited by 54 publications

References 13 publications

Magnetic field dependent electro-conductivity of the graphite doped magnetorheological plastomers

Magnetic field dependent electro-conductivity of the graphite doped magnetorheological plastomers

Magneto-piezoresistance in elastomagnetic composites

Magnetorheological elastomer-based quadrupolar element of electric circuits

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