The Experimental Study of the Magnetic Fluid Damper Based on the Principle of Second-Order Buoyancy

Yi Ding; De Cai Li; Qing Lei Wang; Hai Na Zhang; Zhi Li Zhang

doi:10.4028/www.scientific.net/KEM.512-515.1459

Paper Titles

Room-Temperature Ferromagnetism in Co-Doped SrTiO₃ Nanofibres
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Study on Magnetic Liquids Properties for Sensor Design
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Study on Magnetic Fluid Static Seal of Large Gap
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Structure Design of Magnetic Fluid Static Seal at Large Diameter Flange
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The Experimental Study of the Magnetic Fluid Damper Based on the Principle of Second-Order Buoyancy
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Experimental Study on the Second-Order Buoyancy of Magnetic Fluid
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Properties of Fluorinated Surfactant and Wetting Effect on Fe₃O₄ Nanoparticles
p.1470

Study on the Structure of the Magnetic Fluid Damper
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Effects of Magnetic Fluid on Magnetic Fluid Damper
p.1479

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The Experimental Study of the Magnetic Fluid Damper Based on the Principle of Second-Order Buoyancy

Abstract:

Two different structure of dampers based on the principle of second-order buoyancy were designed in this paper. In order to verify the reduction of the vibration, a test rig was set up. On the test rig, the reduction effect of two different dampers was studied by adjusting the amount of the magnetic fluid. The experiment results indicate the relationship between the damping effect of magnetic fluid damper and the amount of magnetic fluid and this analysis result is benefit to the design of the dampers.