Application of Electrorheological Fluid for Conveying Realistic Haptic Feedback in Touch Interfaces
, 2019 Alex Mazursky
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Bioinspired Soft Machines: Engineering Nature's Grace into Future Innovations. [PDF]
J Funct BiomaterSingh AV +10 more
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A Lattice Gas Approach to the Structure and Dynamics of Electrorheological Fluids
, 1993 Jie Chen +2 more
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Modeling of Shear Flows over Superhydrophobic Surfaces: From Newtonian to Non-Newtonian Fluids. [PDF]
ACS Eng AuRahmani H, Larachi F, Taghavi SM.
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Experimental Analysis of IPMC Optical-Controlled Flexible Driving Performance under PLZT Ceramic Configuration. [PDF]
Sensors (Basel)Liu Y, Ming P, Chen J, Jing C.
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Undamped frequency of elastically supported porous PU foam hemispherical shells reinforced with GNPs and MWCNTs using generalized Halpin-Tsai scheme. [PDF]
Sci RepMasoodi AR.
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Enhancing Yield Stress Of Electrorheological Fluids With Liquid Crystal Additive
, 2000 Duan, Xiaodong, Chen, Hong, He, Yuanjin
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Light scattering studies of an electrorheological fluid
, 1993 James E. Martin, Judy Odinek
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Considerable scientific and industrial interest is currently being focused on a class of materials known as electrorheological (ER) fluids. These fluids display remarkable behavior, being able to convert rapidly and repeatedly from a fluid to a solid when an electric field is applied or removed. The ER phenomenon has been known for 50 years but only in
R. Tao, G. D. Roy
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Advances in one of the most promising fields of the chemistry of smart materials, specifically, electrorheological fluids are considered. The electrorheological effect and the structure and properties of electrorheological fluids are described. Modern views on the nature of the electrorheological effect are considered.
A. V. Agafonov, A. G. Zakharov
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