A high-performance magnetorheological material: preparation, characterization and magnetic-mechanic coupling properties

Xu, Yangguang; Gong, Xinglong; Xuan, Shouhu; Zhang, Wei; Fan, Yujiao

doi:10.1039/c1sm05301a

Cited by 155 publications

(152 citation statements)

References 37 publications

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“…Test sample was polyurethane based MRP with 70 wt.% carbonyl iron particle (type CIP-CN, produced by BASF, Germany) which is prepared using the same method as was used in our previous work. 1 A commercial rheometer (type Physica MCR 301, produced by Anton Paar GmbH, Austria) with a magneto-controllable accessory (type MRD180) was used to test magneto-induced normal force. The test sample was imposed to the gap of upper plate (type PP20/MRD) and base bed, with parallel gap fixed as 1.000 mm to confine the vertical strain of test sample.…”

Section: Methodsmentioning

confidence: 99%

“…1, 2 MRP appears to be an interphase between magnetorheological fluid 3 and magnetorheological elastomer. 4 In the absence of external magnetic field the iron particles cannot move in the plastic matrix, but they can arrange or rearrange to form some chain-like microstructures along an applied magnetic field.…”

Section: Introductionmentioning

confidence: 99%

“…This versatile characteristic makes MRP show a much higher magnetorheological effect than magnetorheological elastomer. 1 Except for novel performance in rheology, MRP can also overcome the headache particle sedimentation problem 5 of magnetorheological fluid.…”

Section: Introductionmentioning

confidence: 99%

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Magneto-induced normal stress of magnetorheological plastomer

Liu

Gong

et al. 2013

AIP Advances

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An abrupt drop phenomenon of magneto-induced normal stress of magnetorheological plastomer is reported and a microstructure dependent slipping hypothesis is proposed to interpret this interesting behavior. For polyurethane based magnetorheological plastomer sample with 70 wt.% carbonyl iron powder, the magneto-induced normal stress can reach to as high as 60.2 kPa when a 930 mT magnetic field is suddenly applied. Meanwhile, the normal stress shows unpredicted abrupt drop. Particle dynamics is used to investigate the physical generating mechanism of normal stress. The simulation result agrees well with the experimental result, indicating that the interior microstructure of iron particle aggregation plays a crucial role to the normal stress.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Magneto-induced normal stress of magnetorheological plastomer

Liu

Gong

et al. 2013

AIP Advances

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“…Thermal analyses such as Di erential Scanning Calorimetry (DSC), thermogravimetric analysis (TGA/DTA), Dynamic Mechanical-Thermal Analysis (DMTA), aging test, thermal oxidation, and UV oxidation are usually conducted to investigate the performance of the elastomeric materials including MREs as their response to thermal loads. The studies on thermal ans of the MREs based on virgin rubber and/or saturated elastomers can be found in some previous works [27,41,57,[79][80][81][82]. However, since the specimens studied in this report are made of waste rubber as the MREs matrix, there is no report that precisely explains their stability and degradation.…”

Section: Durability Considerationmentioning

confidence: 71%

Physicochemical Properties and Stress-Strain Compression Behaviors of a Waste based Magnetorheological Elastomers

Ubaidillah

Mazlan²,

Sutrisno

et al. 2016

Scientia Iranica

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Abstract. This study reports a reclamation method of Ground Tire Rubber (GTR) and electronic wastes into a tunable sti ness composite, namely magnetorheological elastomers (MREs). The composite matrix was the GTR that had been separated from its metals and yarns. Meanwhile, the llers were fabricated from magnetic cores of the Cathode Ray Tubes (CRTs) monitor waste through high energy ball milling in wet condition. Some physicochemical characterizations of the powders were initially conducted to collect the physical and chemical properties. Based on the examination, the ground powders were identi ed as pure magnetite (Fe 3 O 4 ) having low remnant and high magnetization. The MREs samples were prepared by high-temperature high-pressure sintering. The mixed of crumb rubber and magnetite powder was vulcanized under simultaneous pressure and temperature in the absence of magnetic elds, which resulted in an isotropic MREs type. The abilities of specimens were examined in relation to the external magnetic eld through static and dynamic compression tests. The experimental investigation showed that the static and dynamic stresses of the sti ness increased by the increment of magnetic elds up to a particular point of ux density. The tunability of the sti ness indicated that the elastomers could provide wide ranges of storage and loss modulus.

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“…They can be used in shock absorbers [12], damper systems [13], microfluidics [14], and tactile displays [15] along with magnetically analogous magnetorheological (MR) fluids under external magnetic fields [16]. However, the application of ER fluids is not as successful as the case of MR fluids in general owing to their relatively lower yield stress compared to MR fluids, except giant ER fluids [17,18].…”

Section: Introductionmentioning

confidence: 98%