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Yiguang Wang
Researcher at Beijing Institute of Technology
Publications - 252
Citations - 6794
Yiguang Wang is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Ceramic & Sintering. The author has an hindex of 37, co-authored 218 publications receiving 4516 citations. Previous affiliations of Yiguang Wang include Northwestern Polytechnical University & University of Central Florida.
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High-entropy ceramics: Present status, challenges, and a look forward
Huimin Xiang,Yan Xing,Fu zhi Dai,Hongjie Wang,Lei Su,Lei Miao,Guo-Jun Zhang,Yiguang Wang,Xiwei Qi,Lei Yao,Hailong Wang,Biao Zhao,Jianqiang Li,Yanchun Zhou +13 more
TL;DR: High-entropy ceramics (HECs) as mentioned in this paper are solid solutions of inorganic compounds with one or more Wyckoff sites shared by equal or near-equal atomic ratios of multi-principal elements.
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Highly stable anion exchange membranes based on quaternized polypropylene
TL;DR: A series of quaternized polypropylene (PP) membranes with side-chain-type architecture was prepared by heterogeneous Ziegler-Natta catalyst mediated polymerization and subsequent quaternization.
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Reaction kinetics and ablation properties of C/C–ZrC composites fabricated by reactive melt infiltration
TL;DR: In this article, a model based on these results was built up to describe the kinetic process of carbon/carbon-zirconium carbide (C/C-ZrC) composites, where carbon fiber felt was firstly densified by carbon using chemical vapor infiltration to obtain a porous carbon/C skeleton.
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High-entropy environmental barrier coating for the ceramic matrix composites
TL;DR: In this article, a novel high-entropy material, (Yb0.2Y 0.2Lu 0.5.2Sc 0.6.2Gd 0.4.2)2Si2O7 ((5RE0.1.2.2]2SiO7) was proposed as a promising environmental barrier coating for SiC-based composites.
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Multicomponent high-entropy zirconates with comprehensive properties for advanced thermal barrier coating
TL;DR: In this paper, entropy engineering is employed to fabricate multicomponent rare earth zirconates with a large coefficient of thermal expansion, excellent mechanical properties and ultralow thermal conductivity, without sacrificing other properties.