Synthesis of TiN Nano-Composite Powder by High-Energy Ball Milling of TiH_2 Under Nitrogen Atmosphere

机译：氮气氛下高能球磨TiH_2合成TiN纳米复合粉体

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Titanium nitride is a broad-spectrum specific functional material because of its many superior properties. Therefore, it is necessary to investigate synthesis methods of TiN and alloys containing TiN reinforcement. In the current study, with the increase of nitrogen gas pressure and the optimization of routine ball milling parameters, the conventional mechanical ball-milling method can be improved, the nanometers TiH_2-TiN composite powder can be synthesized successfully in a shorter time. Nitrogen gas filled in ball mill jar in which the pressure was 0.6 MPa. TiH_2 powder was milled under nitrogen atmosphere at a spinning rate of 250 rpm. The results show that the stable TiN is formed after grinding for 2.5 h according to the X-ray diffraction pattern. DSC (differential scanning calorimetry) curves also indicate that milled compound powder adsorbs certain nitrogen gas. The gas adsorbed in TiH_2-TiN composite can exist stably below 200 ℃.

机译：氮化钛由于其许多优越的性能而成为一种广谱特定的功能材料。因此，有必要研究TiN和含TiN增强合金的合成方法。在当前研究中，随着氮气压力的增加和常规球磨参数的优化，可以改进常规的机械球磨方法，可以在更短的时间内成功合成纳米TiH_2-TiN复合粉末。将氮气填充在压力为0.6MPa的球磨机广口瓶中。在氮气气氛下以250 rpm的旋转速率研磨TiH_2粉末。结果表明，根据X射线衍射图谱可知，研磨2.5 h后可形成稳定的TiN。 DSC（差示扫描量热法）曲线也表明研磨的化合物粉末吸附某些氮气。 TiH_2-TiN复合材料中吸附的气体在200℃以下可以稳定存在。

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来源
《Characterization of minerals, metals, and materials 2017》|2017年|203-208|共6页
会议地点 San Diego(US)
作者
Xiaolong Wu; Xuewei Lv; Xuyang Liu; Chunxin Li; Yu Zhang;
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作者单位

College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China;

College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China;

College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China;

College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China;

College of Materials Science and Engineering, Chongqing University, Chongqing 400044, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
TiH_2; Ball milling; TiH_2-TiN composite powder;

机译：TiH_2;球磨; TiH_2-TiN复合粉;

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1. Synthesis of TiFe Compound from Ball Milled TiH_2 and Fe Powders Mixtures [J] . Railson Bolsoni Falcao, Edgar Djalma Campos Carneiro Dammann, Claudio Jose da Rocha, Materials science forum . 2014,第期

机译：球磨TiH_2和Fe粉末混合物合成TiFe化合物。
2. Synthesis of Magnetic Nano-Composite by Partial Reduction of Barium Hexaferrite via High-Energy Ball Milling [J] . M. J. Molaei, rnA. Ataie, rnSh. Raygan Key Engineering Materials . 2010,第期

机译：高能球磨法部分还原六方铁酸钡合成磁性纳米复合材料
3. Synthesis of nanodiamond-reinforced aluminum metal composite powders and coatings using high-energy ball milling and cold spray [J] . D.J. Woo, B. Sneed, F. Peerally Carbon: An International Journal Sponsored by the American Carbon Society . 2013,第Null期

机译：高能球磨和冷喷涂合成纳米金刚石增强铝金属复合粉末和涂料
4. Synthesis of TiN Nano-Composite Powder by High-Energy Ball Milling of TiH_2 Under Nitrogen Atmosphere [C] . Xiaolong Wu, Xuewei Lv, Xuyang Liu, Symposium on Characterization of Minerals, Metals, and Materials . 2017

机译：氮气氛下TIH_2高能球铣削锡纳米复合粉末的合成
5. The Dynamic Stress-Strain Response of High-Energy Ball Milled Aluminum Powder. [D] . Justice, Andrew W. 2017

机译：高能球磨铝粉的动态应力-应变响应。
6. Combustion of Titanium–Carbon Black High-Energy Ball-Milled Mixtures in Nitrogen: Formation of Titanium Carbonitrides at Atmospheric Pressure [O] . Michail A. Korchagin, Dina V. Dudina, Alexander I. Gavrilov, 2020

机译：氮气中钛碳黑高能球磨混合物的燃烧：大气压下碳氮化钛的形成
7. Synthesis of nanodiamond-reinforced aluminum metal composite powders and coatings using high-energy ball milling and cold spray [O] . Woo D. J., Sneed B., Peerally F., 2013

机译：高能球磨和冷喷涂合成纳米金刚石增强铝金属复合粉末和涂料

Synthesis of TiN Nano-Composite Powder by High-Energy Ball Milling of TiH_2 Under Nitrogen Atmosphere

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