Effect of Electric Field/Current on Sintering Behavior of Yttria during SPS Processing

Koji Morita; Ji-Hwoan Lee

doi:10.2497/jjspm.16b-t5-09

論文 Effect of Electric Field/Current on Sintering Behavior of Yttria during SPS Processing

Koji Morita (National Institute for Materials Science) ; Ji-Hwoan Lee (National Institute for Materials Science)

WORLD_PM2024_Manuscript_K.Morita_C000244.doc

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引用

Koji Morita, Ji-Hwoan Lee. Effect of Electric Field/Current on Sintering Behavior of Yttria during SPS Processing. 粉体および粉末冶金. 2025, 72 (Supplement), . https://doi.org/10.2497/jjspm.16b-t5-09

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(abstract)

The effect of electric field/current has been reported to enhance sintering behavior of various materials such as metals, ceramics and those composites. Although spark-plasma-sintering (SPS) technique has widely been utilized in the densification of various materials, the field/current effects on the sintering remain unclear. Especially for insulator materials such as oxides, the field/current effects in the SPS processing are under discussion. In this work, therefore, the field/current effects in the SPS technique were examined in yttria (Y2O3) ceramics by comparing the sintering behavior using conductive and non-conductive die set-ups. The sintering behavior of Y2O3 was apparently accelerated under the conductive set-up than under non-conductive die set-up. This suggests that during the SPS processing, applied pulsed electric field/current is likely to contribute to the sintering of Y2O3 ceramics.

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