High Temperature Graphitization of Diamond during Heat Treatment in Air and in a Vacuum

IF 0.8 4区 材料科学 Q4 MATERIALS SCIENCE, CERAMICS
V. Ya. Shevchenko, S. N. Perevislov, A. V. Nozhkina, A. S. Oryshchenko, I. E. Arlashkin
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Abstract

This paper studies the morphological and structural changes that occur during the graphitization of synthetic diamond powder (with highly faceted edges) and micropowder during heat treatment in air at temperatures up to 1000°C and in a vacuum at temperatures up to 1600°C. The most developed facets of the original diamond crystals are the octahedral {111} and cubic {100} faces. It is established that graphitization begins from the vertices and edges of crystals. {111} faces are more susceptible to graphitization than {100} faces. The morphological analysis of graphitized diamond AC160 in air helps us to study the kinetics of graphitization: the growth of dendritic graphite crystals and the formation of “graphitization pits” on the surface of diamond facets. It is shown for the first time that graphite of different shapes is formed on different diamond faces at different rates; thus, on the {111} faces graphite forms and grows in the form of triangles, and on the {100} faces, in the form of squares. At a high temperature, the volumetric graphitization of diamond particles is observed, accompanied by their destruction, mainly in the growth stages.

Abstract Image

金刚石在空气和真空中热处理时的高温石墨化
本文研究了合成金刚石粉末(具有高度刻面的边缘)和微粉在空气中(最高温度为 1000°C)和真空中(最高温度为 1600°C)进行热处理的石墨化过程中发生的形态和结构变化。原始金刚石晶体最发达的切面是八面体{111}和立方体{100}面。已经证实,石墨化是从晶体的顶点和边缘开始的。{111}面比{100}面更容易发生石墨化。对空气中石墨化金刚石 AC160 的形态分析有助于我们研究石墨化的动力学:树枝状石墨晶体的生长和金刚石刻面表面 "石墨化坑 "的形成。研究首次表明,不同形状的石墨在不同的金刚石面上以不同的速度形成;因此,在{111}面上,石墨以三角形的形式形成和生长,而在{100}面上,则以正方形的形式形成和生长。在高温下,可以观察到金刚石颗粒的体积石墨化,同时伴随着它们的破坏,主要是在生长阶段。
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来源期刊
Glass Physics and Chemistry
Glass Physics and Chemistry 工程技术-材料科学:硅酸盐
CiteScore
1.20
自引率
14.30%
发文量
46
审稿时长
6-12 weeks
期刊介绍: Glass Physics and Chemistry presents results of research on the inorganic and physical chemistry of glass, ceramics, nanoparticles, nanocomposites, and high-temperature oxides and coatings. The journal welcomes manuscripts from all countries in the English or Russian language.
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