Characteristics of magnetic compound fluid (MCF) in a rotating rheometer

Shimada, Kunio; Akagami, Yoichi; Fujita, Toyohisa; Miyazaki, Toshio; Kamiyama, Satoshi; Shibayama, Atsushi

doi:10.1016/s0304-8853(02)00646-7

Cited by 47 publications

(28 citation statements)

References 2 publications

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“…[2] the possibility of the influence of a uniform magnetic field on the yield stress and effective viscosity of MCF (yield stress of MCF is absent in a uniform magnetic field) was predicted. MCF were experimentally investigated in studies [3] and [4]. In Ref.…”

Section: Influence Of the Wall-adjacent Effect On The Rheological Promentioning

confidence: 99%

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The interaction of the particles of magnetizable suspensions with a wall (wall-adjacent effect) in uniform electric and magnetic fields

Налетова¹,

Турков²,

Соколов³

et al. 2005

Journal of Magnetism and Magnetic Materials

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Section: Influence Of the Wall-adjacent Effect On The Rheological Promentioning

confidence: 99%

“…The rheological properties of MCF and MRS (MRS is a suspension of micron paramagnetic particles on the base of a usual liquid) in uniform magnetic field have been experimentally investigated in Ref. [3].…”

Section: Introductionmentioning

confidence: 99%

The interaction of the particles of magnetizable suspensions with a wall (wall-adjacent effect) in uniform electric and magnetic fields

Налетова¹,

Турков²,

Соколов³

et al. 2005

Journal of Magnetism and Magnetic Materials

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“…To overcome the respective disadvantages and benefit from the respective advantages of MFs and MRFs, Shimada and Akagami [13,14] developed a magnetic compound fluid (MCF) by mixing an MF and an MRF that had a higher magnetic pressure and apparent viscosity in a magnetic field and a more stable distribution of particles while maintaining the behaviour of a fluid. Shimada et al [15] developed a new type of magnetic abrasive compound named MCF polishing liquid, which they created by blending abrasive particles and α-cellulose fibres with an MCF, and it was confirmed experimentally that the MCF polishing liquid performed well in constant-contact-force polishing.…”

Section: Introductionmentioning

confidence: 99%

Fundamental performance of Magnetic Compound Fluid (MCF) wheel in ultra-fine surface finishing of optical glass

Wang

et al. 2013

International Journal of Machine Tools and Manufacture

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“…In response to this need, Shimada has demonstrated experimentally the use of his developed intelligent fluid, a magnetic compound fluid (MCF) [1][2][3]. It was created by compounding the nm-size magnetite of magnetic fluid (MF) and the µm-size iron particles into a single solvent, thereby essentially producing a mixture of MF and magnet-rheological fluid (MRF).…”

Section: Introductionmentioning

confidence: 99%

Research on Magnetic Compound Fluid (MCF) Rubber as Material for Microwave Heating

Zheng

Shimada

2009

JMMP

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This report describes the application of magnetic compound fluid (MCF) rubber as a material for microwave heating. MCF rubber is one of several new composite materials utilizing MCF as a newly developed magnetic responsive fluid developed by Shimada. The temperature of water in a PP container enveloped by MCF rubber in a microwave oven was measured at various mass concentrations of magnetic particles in the MCF rubber. The measurements were compared to those of MCF rubber in a microwave oven. The results showed an optimum mass concentration in relationship to the increase or decrease of the water temperature. At less than about 50 wt% and more than about 90 wt% of the magnetic particles in the MCF rubber, changes in the water temperature were small but those of the MCF rubber were large. However, in the range of about 60 -80 wt%, changes in the water temperature were large but those of the MCF rubber were small. To explain the experimental data, we derived a simple microwave heating theory and measured experimental data for the complex permittivity and permeability of the MCF rubber. This could partly explain the experimental results qualitatively. We also found in the present study that iron particles are better for the MCF rubber in microwave heating than copper or nickel particles. In conclusion, the MCF rubber is a useful material for microwave heating in a microwave oven.

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Characteristics of magnetic compound fluid (MCF) in a rotating rheometer

Cited by 47 publications

References 2 publications

The interaction of the particles of magnetizable suspensions with a wall (wall-adjacent effect) in uniform electric and magnetic fields

The interaction of the particles of magnetizable suspensions with a wall (wall-adjacent effect) in uniform electric and magnetic fields

Fundamental performance of Magnetic Compound Fluid (MCF) wheel in ultra-fine surface finishing of optical glass

Research on Magnetic Compound Fluid (MCF) Rubber as Material for Microwave Heating

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