Nonequilibrium Diamond Growth during the High-Temperature High-Pressure Synthesis of a Composite Material Made of a Mixture of Cobalt and Fullerene Powders

N. A. Bulienkov; E. A. Zheligovskaya; O. P. Chernogorova; E. I. Drozdova; I. N. Ushakova; E. A. Ekimov

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Nonequilibrium Diamond Growth during the High-Temperature High-Pressure Synthesis of a Composite Material Made of a Mixture of Cobalt and Fullerene Powders

机译：在高温高压合成的复合材料的高温高压合成中，由钴和富勒烯粉末的混合物制成

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A composite material (CM) reinforced by diamond particles is fabricated from a mixture of cobalt and 10 wt % C~(60)powders at a pressure of 8 GPa and a temperature of 1200–1300°C, which is close to the melting temperature of the metastable Co–C eutectic. The results of X-ray diffraction, Raman spectroscopy, and electron-probe microanalysis demonstrate that the CM consists of diamond and the Co~(3)C carbide. Diamond crystals are shown to grow as plates parallel to a {100} plane according to the mechanism of nonequilibrium normal growth during liquid-phase CM synthesis. The diamond particles have a hardness of 82 GPa at an elastic recovery of 95%. The structure of the synthesized cobalt-based CM with diamond inclusions ensures its ultrahigh wear resistance and antifriction properties.

机译：由金刚石颗粒加强的复合材料（cm）由钴和10wt％C〜（60）粉末的混合物，在8GPa的压力和1200-1300℃的温度下，靠近熔化温度亚稳态CO-C共晶。 X射线衍射，拉曼光谱和电子探针微显微分析的结果表明，CM由金刚石和CO〜（3）C碳化物组成。根据在液相CM合成期间，金刚石晶体显示为平行于{100}平面平行于{100}平面的平板。金刚石颗粒的硬度为82GPa，弹性回收率为95％。具有金刚石夹杂物的合成的钴基CM的结构确保其超高耐磨性和抗耐抗性。

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来源
《Russian Metallurgy(Metally)》 |2018年第1期|共7页
作者
N. A. Bulienkov; E. A. Zheligovskaya; O. P. Chernogorova; E. I. Drozdova; I. N. Ushakova; E. A. Ekimov;
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作者单位

Frumkin Institute of Physical Chemistry and Electrochemistry Russian Academy of Sciences;

Frumkin Institute of Physical Chemistry and Electrochemistry Russian Academy of Sciences;

Baikov Institute of Metallurgy and Materials Science Russian Academy of Sciences;

Baikov Institute of Metallurgy and Materials Science Russian Academy of Sciences;

Baikov Institute of Metallurgy and Materials Science Russian Academy of Sciences;

Vereshchagin Institute of High-Pressure Physics Russian Academy of Sciences Troitsk;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
composite materials; fullerenes; high pressure; diamonds; wear resistance;

机译：复合材料;富勒烯;高压;钻石;耐磨;

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1. Nonequilibrium Diamond Growth during the High-Temperature High-Pressure Synthesis of a Composite Material Made of a Mixture of Cobalt and Fullerene Powders [J] . N. A. Bulienkov, E. A. Zheligovskaya, O. P. Chernogorova, Russian Metallurgy(Metally) . 2018,第1期

机译：在高温高压合成的复合材料的高温高压合成中，由钴和富勒烯粉末的混合物制成
2. Thermally stable, electrically conductive diamond material prepared by high-pressure, high-temperature processing of a graphite plus boron carbide mixture [J] . Ekimov E. A., Sirotinkin V. P., Shatalova T. B., Inorganic materials . 2015,第3期

机译：通过对石墨和碳化硼混合物进行高压高温处理而制备的热稳定，导电的金刚石材料
3. Single-crystal synthesis of highly thermal conductive ~(12)C-enriched diamond from pyrolytic carbon powder by the high-pressure, high-temperature method [J] . K. Nakamura, S. Yamashita, T. Tojo Diamond and Related Materials . 2007,第9期

机译：高压高温法由热解碳粉单晶合成高导热〜（12）C-富集金刚石
4. High-pressure Self-propagating High-temperature Synthesis (SHS) of Cd-In-Ga-O powder for novel substrate used for gallium nitride based thin film growth [C] . Sy-Chyi Lin, Richard Wilkins Innovative Processing and Synthesis of Ceramics, Glasses, and Composites Symposium . 2000

机译：用于氮化镓基薄膜生长的新型基材的CD-in-Ga-O粉末的高压自蔓延高温合成（SHS）
5. Development of a high-temperature high-pressure process for the manufacture of Diamond-Tungsten-Metal composites for oil and gas drilling. [D] . Gu, Lin. 2015

机译：开发了一种高温高压工艺，用于制造石油和天然气钻探用的金刚石-钨-金属复合材料。
6. Redox-Promoted Tailoring of the High-Temperature Electrical Performance in Ca3Co4O9 Thermoelectric Materials by Metallic Cobalt Addition [O] . Gabriel Constantinescu, Artur R. Sarabando, Shahed Rasekh, 2020

机译：金属钴添加氧化还原促进的Ca3Co4O9热电材料高温电气性能定制
7. First synthesis of fullerene trimer C180 and its structural identification by scanning tunnelling microscopy(STM) / Synthesis of novel derivatives of fullerene dimers and open-cage fullerene (ORGANIC MATERIALS CHEMISTRY - High-Pressure Organic Chemistry) [O] . KOMATSI Koichi, KITAGAWA Toshikazu, MORI Sadayuki, 2002

机译：富勒烯三聚体C180的首次合成及其通过扫描隧道显微镜（STM）的结构鉴定/富勒烯二聚体和开笼式富勒烯新型衍生物的合成（有机材料化学-高压有机化学）
8. Sensitivity of Fischer-Tropsch Synthesis and Water-Gas Shift Catalysts to Poisons from High-Temperature High-Pressure Entrained-Flow (EF) Oxygen-Blown Gasifier Gasification of Coal/Biomass Mixtures. [R] . B. H. Davis D. E. Sparks G. Jacobs J. C. Mohandas K. Azzam V. R. R. Pendyala W. Ma W. Shafer 2011

机译：费 - 托合成和水煤气变换催化剂对煤/生物质混合物高温高压气流（EF）氧气吹气气化炉毒害的敏感性。

Nonequilibrium Diamond Growth during the High-Temperature High-Pressure Synthesis of a Composite Material Made of a Mixture of Cobalt and Fullerene Powders

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