Sintering of uranium dioxide nanoparticles. A molecular dynamics simulation

PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference Pub Date : 2019-12-06 DOI:10.1063/1.5134209

D. Seitov, Y. A. Gracheva, K. Nekrasov, A. Kupryazhkin, Sanjeev K. Gupta, A. Akilbekov

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Abstract

A molecular dynamics simulation of sintering of two octahedral uranium dioxide nanocrystals contacting in the vertex region is carried out. Two main stages of the sintering process are observed. At the beginning of the simulation, the neck between the crystallites is formed due to the mutual attraction of the adjacent (111) faces. Further increase in the neck thickness occurs due to transport of the material from the surface of the crystallites in a much slower diffusion process. The estimate of the activation energy of this process is in the range from 11 to 14 eV.A molecular dynamics simulation of sintering of two octahedral uranium dioxide nanocrystals contacting in the vertex region is carried out. Two main stages of the sintering process are observed. At the beginning of the simulation, the neck between the crystallites is formed due to the mutual attraction of the adjacent (111) faces. Further increase in the neck thickness occurs due to transport of the material from the surface of the crystallites in a much slower diffusion process. The estimate of the activation energy of this process is in the range from 11 to 14 eV.

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二氧化铀纳米颗粒的烧结。分子动力学模拟

对两个八面体二氧化铀纳米晶在顶点区接触的烧结过程进行了分子动力学模拟。观察了烧结过程的两个主要阶段。在模拟开始时，由于相邻(111)面的相互吸引，形成了晶体之间的颈部。由于材料在较慢的扩散过程中从晶体表面转移，颈层厚度进一步增加。该过程的活化能估计在11 ~ 14 eV之间。对两个八面体二氧化铀纳米晶在顶点区接触的烧结过程进行了分子动力学模拟。观察了烧结过程的两个主要阶段。在模拟开始时，由于相邻(111)面的相互吸引，形成了晶体之间的颈部。由于材料在较慢的扩散过程中从晶体表面转移，颈层厚度进一步增加。该过程的活化能估计在11 ~ 14 eV之间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference

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