乙醇对机械活化钛碳粉混合物的相和元素组成的影响

IF 0.4 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Russian Physics Journal Pub Date : 2024-08-24 DOI:10.1007/s11182-024-03221-1
G. A. Pribytkov, A. V. Baranovskiy, V. V. Korzhova, I. A. Firsina, V. P. Krivopalov
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引用次数: 0

摘要

利用在乙醇介质中对钛和碳(炭黑)的机械活化粉末混合物进行热压实(HC)的方法,获得了具有碳化物强化相的钛基复合材料。为了获得不同碳化钛含量的复合材料,碳的用量在 0-1 wt.% 的范围内变化。通过光学金相、扫描电子显微镜、X 射线衍射和化学分析,研究了机械活化碳掺杂钛粉混合物以及机械活化钛粉(温度为 900°C,保温时间为 15 分钟)和在不同温度和保温时间下的附加退火。根据金相和 X 射线衍射结果,发现碳氢化合物复合材料中的 TiC 含量明显高于估计值。原因是乙醇分子在机械活化过程中遭到破坏,释放出碳和氢。为了在钛基复合材料中获得预定(不超过 10 Vol.%)的 TiC 含量,有必要为钛粉的机械活化建立特定的技术模式。
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Effect of Ethanol on the Phase and Elemental Composition of Mechanically Activated Titaniumcarbon Powder Mixtures

Using the method of hot compaction (HC) of mechanically activated powder mixtures of titanium and carbon (carbon black) in an ethanol medium, titanium-matrix composites with a carbide strengthening phase were obtained. To obtain a composite with different content of titanium carbide, the amount of carbon was varied within the range of 0–1 wt.%. The mechanically activated carbon-doped titanium powder mixtures, as well as the mechanically activated titanium powder subjected to HC (temperature of 900°C and holding time of 15 min) and additional annealing at different temperatures and holding times are studied by optical metallography, scanning electron microscopy, and X-ray diffraction and chemical analysis. According to the metallography and X-ray diffraction results, the TiC content in the HC composite has been found to be significantly higher than the estimated value. The reason is a destruction of ethanol molecules during mechanical activation resulting in the release of carbon and hydrogen. To obtain the targeted (no more than 10 vol.%) TiC content in the titanium matrix composite, it is necessary to establish a specific technological mode for the mechanical activation of the titanium powder.

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来源期刊
Russian Physics Journal
Russian Physics Journal PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.00
自引率
50.00%
发文量
208
审稿时长
3-6 weeks
期刊介绍: Russian Physics Journal covers the broad spectrum of specialized research in applied physics, with emphasis on work with practical applications in solid-state physics, optics, and magnetism. Particularly interesting results are reported in connection with: electroluminescence and crystal phospors; semiconductors; phase transformations in solids; superconductivity; properties of thin films; and magnetomechanical phenomena.
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