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2024 | OriginalPaper | Chapter

An Atomistic Modeling Study of Electric Field Effect on Sintering Mechanisms of Zirconia

Authors : Kyrel Polifrone, Colin Delaney, Md. Shahrier Hasan, Hadia Bayat, Christopher Foronda, Eugene Olevsky, Wenwu Xu

Published in: TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

Publisher: Springer Nature Switzerland

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Abstract

This study explores the impact of electric field and temperature on flash sintering of zirconia nanoparticles using molecular dynamics simulations. The findings suggest that the electric field effect is secondary to the temperature effect. A comparison of simulations varying temperature and electric field reveals a more significant difference in diffusion coefficient with temperature variations. Furthermore, the electric field effect does not exhibit a consistent monotonic trend, as seen in the changing order of curves when temperature increases. The induced electric field contributes to crystal orientation alignment and promotes surface mechanisms throughout the sintering stages. While a higher electric field leads to greater atomic motion in the initial stage, the relationship is not strictly monotonic. However, it consistently enhances the diffusion coefficient of surface atoms, highlighting its role in surface mechanisms. Further research is warranted to fully understand the interplay between electric field, temperature, and sintering mechanisms.

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Title: An Atomistic Modeling Study of Electric Field Effect on Sintering Mechanisms of Zirconia
Authors: Kyrel Polifrone
Colin Delaney
Md. Shahrier Hasan
Hadia Bayat
Christopher Foronda
Eugene Olevsky
Wenwu Xu
Publisher: Springer Nature Switzerland
Book: TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings
Print ISBN: 978-3-031-50348-1

Electronic ISBN: 978-3-031-50349-8

Copyright Year: 2024
DOI: https://doi.org/10.1007/978-3-031-50349-8_157

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