2023
DOI: 10.1016/j.cplett.2023.140319
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Thermal percolation in a magnetic field responsive composite

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Cited by 4 publications
(3 citation statements)
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“…It has also been observed that at 30 • C, the shear yield stress of the novel fluid is 9.47 kPa under a magnetic field of 817 mT, which is higher than the general MRFs with the same mass fraction. The yield shear stress is less affected by the high-temperature environment, reducing by only 4.03% from 10 • C to 70 • C. Zakinyan et al [61] investigated the effect of thermal percolation in a magnetic fluid composite by changing the contents of conducting microparticles in a low-conducting medium. It has been shown that the effect of the magnetic field on the thermal conductivity of the composite material is significant at the concentration of conducting microparticles above the percolation threshold and is much less pronounced otherwise.…”
Section: Temperature Effect and Thermal Conductivitymentioning
confidence: 99%
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“…It has also been observed that at 30 • C, the shear yield stress of the novel fluid is 9.47 kPa under a magnetic field of 817 mT, which is higher than the general MRFs with the same mass fraction. The yield shear stress is less affected by the high-temperature environment, reducing by only 4.03% from 10 • C to 70 • C. Zakinyan et al [61] investigated the effect of thermal percolation in a magnetic fluid composite by changing the contents of conducting microparticles in a low-conducting medium. It has been shown that the effect of the magnetic field on the thermal conductivity of the composite material is significant at the concentration of conducting microparticles above the percolation threshold and is much less pronounced otherwise.…”
Section: Temperature Effect and Thermal Conductivitymentioning
confidence: 99%
“…(iii) An analysis between the sedimentation and temperature-dependent viscosity-the sedimentation and the viscosity are exponentially reduced as the temperature increases. (iv) Introduction of temperature effect of commercial products-oil and silicone oil-based fluids can typically operate at temperatures from −40 to 150 • C, and water-based fluids are rated from 0 to 70 • C.[[57][58][59][60][61][62]…”
mentioning
confidence: 99%
“…However, high magnetic permeability in the microwave region is observed only when the colloid is subjected to strong magnetic fields (∼100 kA m −1 ) necessary for the ferromagnetic resonance to occur [18][19][20][21]. On the other hand, on the basis of magnetic colloids, new promising complex liquid magnetizable materials can be created, the controllability of which properties is based on the control of the material microstructure by means of a magnetic field [22,23]. Such materials include, in particular, magnetodielectric emulsions, one of the phases of which is represented by ferrofluid [24,25].…”
Section: Introductionmentioning
confidence: 99%