Journal ArticleDOI
Effect of Bi2O3 on phase formation and microstructure evolution of mullite ceramics from mechanochemically activated oxide mixtures
Zhuohao Xiao,Xianglin Li,Shijin Yu,Shijin Yu,Xin-Yuan Sun,Xiuying Li,Min Wu,Chuanhu Wang,Tianshu Zhang,Sean Li,Ling Bing Kong,Ling Bing Kong +11 more
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TLDR
In this article, the effects of Bi 2 O 3 and processing on the morphology development of mullite ceramics, derived from the mechanochemically activated mixture of Al 2O 3 and SiO 2, were investigated.About:
This article is published in Ceramics International.The article was published on 2018-08-15. It has received 10 citations till now. The article focuses on the topics: Mullite & Whisker.read more
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An eco‐friendly permeable brick with excellent permeability and high strength derived from steel slag wastes
Journal ArticleDOI
Exploring the potential of the mechanical/thermal properties and co-shielding ability of Bi2O3-doped aluminum borate ceramics against neutron/gamma radiation
Han Luo,Yuanbing Li,Ruofei Xiang,Wenbao Jia,Minghui Li,Shujing Li,Dong Lao,Hailu Wang,Qingfeng Yan,Cheng Dong +9 more
TL;DR: In this paper, the phase compositions, microstructures, sintering kinetics, and performances of the as-prepared Bi2O3 doped aluminum borate ceramics (BDABCs) are systematically researched.
Journal ArticleDOI
Engineering Fractal Photonic Metamaterials by Stochastic Self‐Assembly of Nanoparticles
Zelio Fusco,Thanh Tran-Phu,Arianna Cembran,Alexander Kiy,Patrick Kluth,David R. Nisbet,Antonio Tricoli,Antonio Tricoli +7 more
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Local structure analysis of Bi2(Ga1-xFex)4O9 mullite-type solid solutions synthesized via combination of ball milling and thermal treatment
R. T. Santiago,Martin Fabián,Martin Fabián,Martin Fabián,Vladimir Šepelák,Vladimir Šepelák,Vladimir Šepelák,Luiz Fernando Cótica,Ivair A. Santos,Carla C.F. Machado,Horst Hahn,Klaus Becker,Klebson Lucenildo Da Silva,Klebson Lucenildo Da Silva,Klebson Lucenildo Da Silva +14 more
TL;DR: In this paper, the microstructure of the as-prepared materials on the long-range and local atomic scales was investigated by X-ray diffraction and 57Fe Mossbauer spectroscopy, respectively.
Journal ArticleDOI
Phase formation and microstructure evolution in mullite ceramics synthesized from mechanochemically activated oxide powders doped with Cr2O3
Zhuohao Xiao,Xianglin Li,Xin-Yuan Sun,Shijin Yu,Yi Jiang,Xiuying Li,Hong Jiang,Luo Wenyan,Chuanhu Wang,Tianshu Zhang,Sean Li,Ling Bing Kong +11 more
TL;DR: In this paper, the influence of Cr2O3 on phase formation and microstructure evolution in mullite ceramics was investigated, and the mechanochemical effects of high-energy milling with stainless steel and tungsten carbide were explored.
References
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Book
Sintering: Densification, Grain Growth and Microstructure
TL;DR: Basis of Solid State Sintering Models and Densification Grain Growth Microstructure Development Sintered of Ionic Compounds Liquid Phase SinterING as discussed by the authors... ]
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Mullite for Structural, Electronic, and Optical Applications
TL;DR: Wiederhorn et al. as mentioned in this paper reviewed the current state of mullite-related research at a fundamental level, within the framework of phase equilibria, crystal structure, synthesis, processing, and properties.
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Alumina‐Silica Phase Diagram in the Mollite Region
TL;DR: In this paper, the alumina-silica phase relations of samples annealed in oxygen and quenched were studied by optical microscopy, image analysis, X-ray diffraction, and the electron microprobe.
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Reexamination of the Kaolinite‐to‐Mullite Reaction Series
TL;DR: In this article, the authors re-examined the kaolinite-to-mullite reaction series with special attention to the nature of the metaphase, the eontroversial spinel phase, and the cause of the exothermic peak at 980°C.
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Preparation of self-reinforcement of porous mullite ceramics through in situ synthesis of mullite whisker in flyash body
TL;DR: In this article, a self-reinforced porous mullite ceramics were fabricated by a starch consolidation method with flyash, different aluminium sources (Al(OH) 3 and Al 2 O 3 ) and the additive AlF 3 as raw materials.