L
Liqun Zhang
Researcher at Beijing University of Chemical Technology
Publications - 1266
Citations - 41962
Liqun Zhang is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Natural rubber & Elastomer. The author has an hindex of 82, co-authored 1110 publications receiving 31630 citations. Previous affiliations of Liqun Zhang include Kunming University of Science and Technology & Chinese Ministry of Education.
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Study on mechanical properties of elastomers reinforced by zinc dimethacrylate
TL;DR: In this article, the structural properties of various elastomers with the representative structural features reinforced by zinc dimethacrylate (ZDMA) were studied and a possible model for microstructure of ZDMA/rubber composites was put forward, which could well interpret the observed phenomenon.
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Mussel-inspired modification of boron nitride for natural rubber composites with high thermal conductivity and low dielectric constant
TL;DR: In this article, a combination of covalent and non-covalent modification was used to functionalize boron nitride (BN) platelets via first deposition with poly(dopamine) (PDA) followed by grafting with γ-methacryloxypropyl trimethoxy silane (KH570).
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Structure and properties of nitrile rubber (NBR)–clay nanocomposites by co‐coagulating NBR latex and clay aqueous suspension
TL;DR: In this article, the authors showed that the silicate layers of clay were dispersed in the NBR matrix at the nano-level and had a planar orientation, and X-ray diffraction indicated that there were some nonexfoliated silicates layers in NBR-clay nanocomposites.
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A novel approach to electrically and thermally conductive elastomers using graphene
Sherif Araby,Sherif Araby,Liqun Zhang,Hsu-Chiang Kuan,Jiabin Dai,Peter Majewski,Jun Ma,Jun Ma +7 more
TL;DR: In this article, the authors developed electrically and thermally conductive, high-mechanical performance elastomers, by adopting cost-effective, highstructural integrity graphene platelets (GnPs) of 3.55-±-0.32-nm in thickness and employing an industrial compatible method.
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A combined experiment and molecular dynamics simulation study of hydrogen bonds and free volume in nitrile-butadiene rubber/hindered phenol damping mixtures
TL;DR: By combining experiment and molecular simulation, the authors systematically elucidated the fundamental mechanism of the significantly improved damping property of nitrile-butadiene rubber (NBR) contributed by the introduction of hindered phenol (AO-80) small molecules.