氦等离子体对钨表面碳化物层结构状态的影响

IF 1.4 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
M. Skakov, A. Miniyazov, V. Baklanov, A. Gradoboev, T. Tulenbergenov, I. Sokolov, Yernat Kozhakhmetov, G. Zhanbolatova, I. Kukushkin
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引用次数: 0

摘要

本文介绍了氦等离子体与钨表面碳化物层相互作用的实验研究结果。实验在等离子体束流装置(PBI)上进行,入射离子能量为2kev,碳化钨层表面温度为~905 ~ ~1750℃。利用探针法和等离子体组成的光谱分析对氦等离子体的局部参数Te, n0进行了评价。氦等离子体辐照钨表面WC和W2C两种类型的碳化物层。介绍了等离子体辐照后钨表面形貌变化的机理。通过对两种碳化钨层(WC、W2C)的钨样品在氦等离子体辐照后表面结构的研究,揭示了两种不同类型的氦气泡的形成和表面形貌的变化。氦气泡形成的物理机制是材料表面在高温下产生的热空位捕获氦原子。然而,当温度显著升高到1750℃时,气泡不再形成,样品表面具有发育的珊瑚状结构和晶体取向晶粒。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of helium plasma on the structural state of the surface carbide layer of tungsten
This paper presents the results of the experimental studies of the helium plasma interaction with a surface carbide layer of tungsten. The experiments were carried out on a plasma beam installation (PBI) at a constant energy of incoming ions of 2 keV and at a surface temperature of the tungsten carbide layer of ~905 and ~1750 ℃. The local parameters (Te, n0) of the helium plasma were evaluated using the probe method and spectrometric analysis of the plasma composition. The helium plasma irradiated two types of the carbide layer on the tungsten surface, WC and W2C. The mechanisms of changing the tungsten surface morphology in the result of the plasma irradiation have been described. The study of the surface structure of the tungsten samples with a carbide layer of two types (WC, W2C) after the exposure to the helium plasma has revealed two different types of the formation of helium bubbles and changes in the surface morphology. The physical mechanism of the formation of helium bubbles consists in the capture of helium atoms by the thermal vacancies generated at high temperature by the material surface. However, with a significant increase in temperature to 1750 ℃, the formation of the bubbles was no longer observed and the sample surface had a developed coral-like structure with crystallographically oriented grains.
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来源期刊
AIMS Materials Science
AIMS Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
0.00%
发文量
33
审稿时长
4 weeks
期刊介绍: AIMS Materials Science welcomes, but not limited to, the papers from the following topics: · Biological materials · Ceramics · Composite materials · Magnetic materials · Medical implant materials · New properties of materials · Nanoscience and nanotechnology · Polymers · Thin films.
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