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Xinglong Gong
Researcher at University of Science and Technology of China
Publications - 362
Citations - 13479
Xinglong Gong is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Magnetorheological fluid & Magnetorheological elastomer. The author has an hindex of 53, co-authored 316 publications receiving 10292 citations. Previous affiliations of Xinglong Gong include Zhengzhou University & University of Wollongong.
Papers
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Development of an adaptive tuned vibration absorber with magnetorheological elastomer
TL;DR: In this paper, an adaptive tuned vibration absorber (ATVA) based on the unique characteristics of magnetorheological elastomers (MREs), whose modulus can be controlled by an applied magnetic field.
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Fabrication and characterization of isotropic magnetorheological elastomers
TL;DR: In this article, a method to fabricate isotropic magnetorheological (MR) elastomers under natural conditions was presented, and a simple self-assembled microstructure was proposed to explain the inherent magnetoviscoelasticity of MR elastomer prepared in the absence of a magnetic field.
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Magnetically Separable Fe3O4/TiO2 Hollow Spheres: Fabrication and Photocatalytic Activity
TL;DR: In this paper, a magnetic separable, hollow spherical Fe3O4/TiO2 hybrid photocatalysts were successfully prepared through a poly(styrene−acrylic acid) (PSA) template method.
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Investigation on magnetorheological elastomers based on natural rubber
TL;DR: In this paper, the authors investigated the influence of fabrication conditions on the performance of magnetorheological elastomers (MR Elastomers) such as matrix type, external magnetic flux density, and temperature, plasticizer and iron particles.
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Microstructures and viscoelastic properties of anisotropic magnetorheological elastomers
Lin Chen,Xinglong Gong,Weihua Li +2 more
TL;DR: In this article, the microstructures and viscoelastic properties of anisotropic magnetorheological elastomers are investigated and it is shown that their mechanical properties are greatly dependent on the magnetic flux density applied during preparation.