Research on the effect of liquid-liquid doping processes on the doped powders and microstructures of W-ZrO2(Y) alloys

• Published in: Journal of alloys and compounds Vol. 855
• Main Authors: Xiao, Fangnao, Barriere, Thierry, Cheng, Gang, Miao, Qiang, Wei, Shizhong, Zuo, Shiwei, Yang, Yanping, Xu, Liujie
• Format: Journal Article
• Language: English
• Published: Elsevier 2021
• Subjects: Chemical Sciences; Inorganic chemistry; Material chemistry; Azeotropic distillation; Zirconia; ODS-W; Phase evolution; Hydrothermal process
• ISSN: 0925-8388

In previous researches, there are few studies on the mechanisms involved in liquid-liquid doping techniques for preparing oxide particledoped tungsten powders. In this research, based on different polytungstate species, three liquid-liquid doping techniques forsynthesizing different doped precursor powders were proposed and compared. The extremely homogeneous hexagonal (NH4)0.33WO3*H2Omicrospheres and flaky (NH4)6H2W12O40*5H2O were synthesized. The synthesis mechanisms of precursors, the doping processes and reaction mechanisms for preparing yttrium-stabilised ZrO2 in ternary liquid phase system were discussed. The doped powder prepared through azeotropic distillation method exhibits higher quality due to the highly dispersed ZrO2(Y) phase uniformly distributed in flaky precursor, and thecorresponding alloy possesses more excellent microstructure and mechanical properties. The proposed azeotropic distillation method offersa general pathway and is readily adapted to large-scale industrial production of high-quality oxide particle doped W powders.