Response of Carbonyl Iron-based Magneto-rheological Suspensions Under Step Changes in Magnetic Fields
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概要
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Experimental studies were performed on the response under step changes in magnetic flux density of a magneto-rheological suspension consisting of carbonyl iron particles dispersed in silicone oil. The samples were subjected to a constant shear stress. It was found that the 30 % volume fraction suspension showed the expected changes in shear rate when the magnetic flux density was increased for a short period then reduced to the original value. The 24 % volume fraction suspension did not show this behavior, tending to maintain a lower value of the shear rate even after the flux density had been re-set to the original lower value, suggesting that this suspension may be more susceptible to some form of remnant aggregation of the particles.
- 一般社団法人 日本レオロジー学会の論文
- 2008-02-15
著者
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See Howard
Univ. Sydney Nsw Aus
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See Howard
School Of Chemical And Biomolecular Engineering The University Of Sydney
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GORDIN Andrei
School of Chemical and Biomolecular Engineering, The University of Sydney
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Gordin Andrei
School Of Chemical And Biomolecular Engineering The University Of Sydney
関連論文
- Increase in Shear Stress of an Electrorheological Fluid after Repeated Application of Electric Field and Shearing
- Increase in Shear Stress of an Electrorheological Fluid after Repeated Application of Electric Field and Shearing
- Response of Carbonyl Iron-based Magneto-rheological Suspensions Under Step Changes in Magnetic Fields