交流电场下闪蒸烧结y2o3致密化研究

Kohta Nambu, K. Morita, K. Soga, Takahisa Yamamoto, H. Masuda, H. Yoshida
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引用次数: 0

摘要

在0.05 Hz到1 kHz的频率范围内,系统地研究了500 V·cm−1的交流闪烧烧结过程中未掺杂Y2O3致密化行为的频率依赖性。当功率损耗达到10 ~ 20 mW·mm−3时,各频率均发生闪光事件。交流闪烧的起始温度为1230℃~ 1300℃。在交流电场下烧结的Y2O3体具有均匀的微观结构,电极之间没有不对称的晶粒分布。闪速烧结的起始温度、最终密度和晶粒尺寸与频率有关。其中,1 kHz固结的Y2O3晶体相对密度大于99%,平均晶粒尺寸为1.6 μm。这种几乎完全致密化可能是由于在该频率下交流闪蒸烧结的较高起始温度下的高输入功率造成的。交流闪烧过程中功率耗散的温度依赖性受外加电场频率的影响。对频率的明显依赖可以归因于低频时试样温度的周期性波动和高频时外加电场和试样电流之间的相移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Densification of Y 2O 3 by Flash Sintering Under an AC Electric Field
In the present study, frequency dependence of the densification behavior of undoped Y2O3 sintered by the AC-flash sintering was systematically investigated at 500 V·cm−1 over a frequency range from 0.05 Hz to 1 kHz. Flash events occurred at all frequencies when the power dissipation reached 10–20 mW·mm−3. The onset temperature for AC-flash sintering was in the range of 1230 °C–1300 °C. The Y2O3 bodies sintered under an AC field showed a uniform microstructure, without an asymmetric grain size distribution between the electrodes. The onset temperature for the flash sintering, final density, and grain size of the flash sintered specimens depended on the frequency. In particular, the Y2O3 body consolidated at 1 kHz exhibited a relative density greater than 99% and an average grain size of 1.6 μm. This almost full densification probably resulted from the high input power at the relatively high onset temperature of the AC-flash sintering at this frequency. The temperature dependence of the power dissipation during the AC-flash sintering experiments was influenced by the frequency of the applied field. The apparent dependence on the frequency can be ascribed to the periodic fluctuations of the specimen temperature at low frequencies and to the phase shift between the applied field and the specimen current at high frequencies.
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