Influence of Obtaining Conditions on Kinetics of the Initial Sintering Stage of Zirconia Nanopowders

Marharyta Lakusta; Igor Danilenko; Tetyana Konstantinova; Galina Volkova

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Influence of Obtaining Conditions on Kinetics of the Initial Sintering Stage of Zirconia Nanopowders

机译：制备条件对氧化锆纳米粉体初始烧结动力学的影响

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The present paper is devoted to the problem of sintering ceramics based on yttria-stabilized zirconia (Y-TZP). In this paper, we studied the effect of two obtaining methods (co-precipitation and technical hydrolysis) on sintering kinetics of Y-TZP nanopowders. We used the constant rate of heating (CRH) method at different heating rates for determining the sintering mechanisms. The basic mechanism and activation energy ( Q ) of diffusion at the initial sintering stage were estimated using the sintering rate equations that are applicable to the CRH data. We found that nanopowder 3Y-TZP produced by the co-precipitation method (DIPE) was sintered according to the volume diffusion mechanism ( n ?=?1/2) and nanopowder TZ-3Y (TOSOH) produced by the technical hydrolysis was sintered according to the grain boundary diffusion mechanism ( n ?=?1/3).

机译：本文致力于基于氧化钇稳定的氧化锆（Y-TZP）的烧结陶瓷问题。在本文中，我们研究了两种获得方法（共沉淀和技术水解）对Y-TZP纳米粉体烧结动力学的影响。我们使用不同加热速率下的恒定加热速率（CRH）方法来确定烧结机理。使用适用于CRH数据的烧结速率方程估算初始烧结阶段扩散的基本机理和活化能（Q）。我们发现，通过共沉淀法（DIPE）制备的纳米粉3Y-TZP根据体积扩散机理（n？=？1/2）进行了烧结，通过技术水解制备的纳米粉TZ-3Y（TOSOH）进行了烧结。晶界扩散机理（n≥1/ 3）。

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《Nanoscale Research Letters》 |2016年第1期|共6页
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Marharyta Lakusta; Igor Danilenko; Tetyana Konstantinova; Galina Volkova;
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Influence of Obtaining Conditions on Kinetics of the Initial Sintering Stage of Zirconia Nanopowders

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