海绵钛SHS加氢法制备氢化钛粉体的结构与性能

N. P. Cherezov, M. Alymov
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摘要

介绍了海绵钛经SHS加氢和机械研磨制备的氢化钛粉体的结构和性能研究结果。加氢反应在反应器中进行,氢气压力恒定为3mpa。热海绵钛通过燃烧波后,在氢气气氛中冷却至室温。得到了氢含量为4.2 wt.%的氢化钛海绵状颗粒。将氢化钛在球磨机中研磨,按照钛粉PTK、PTS、PTM和PTOM的分级组成分为4个馏分。粒度分析表明,PTK和PTOM粉末样品的颗粒分布较PTS和PTM粉末样品窄。进一步,对所得粉末的化学成分和表面形貌进行了研究,并测定了堆积密度、压实度、比重密度和比表面积。化学分析结果表明,随着磨矿时间的延长,机械磨矿过程中碳、氧杂质含量降低,铁含量略有增加。形貌研究表明,氢化钛颗粒呈不规则的碎片状,这是该工艺制备的粉末的特征。表面结构部分保留了海绵钛初始结构,由伸长取向晶粒组成。结果表明,随着粒径的减小,堆积密度减小,压实度增大。所有粉末样品的密度和比表面积值大致相等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structure and properties of titanium hydride powder obtained from titanium sponge by SHS hydrogenation
The results of the study of the structure and properties of titanium hydride powders obtained from titanium sponge by SHS hydrogenation and mechanical grinding are presented. Hydrogenation was carried out in a reactor at a constant hydrogen pressure of 3 MPa. After passing the combustion wave, the hot titanium sponge was cooled to room temperature in a hydrogenatmosphere. As a result, titanium hydride spongy granules with a hydrogen content of 4.2 wt.% were obtained. Titanium hydride was ground in a ball mill and divided into 4 fractions corresponding to the fractional composition of titanium powder PTK, PTS, PTM and PTOM. Particle size analysis showed that the samples of the PTK and PTOM powders have a narrower particle distribution in comparison with the PTS and PTM ones. Further, obtained powders chemical composition and surface morphology studies were carried out and bulk density, compaction, pycnometric density and specific surface area were determined. According to the chemical analysis results the content of carbon and oxygen impurities decreases during SHS-hydrogenation and the iron content slightly increases during mechanical grinding depending on the grinding time. The study of morphology showed that the hydride titanium particles have an irregular fragmentary shape, such morphology is characteristic of powders obtained by this technology. The surface structure has partially preserved structure of the initial titanium sponge and consists of elongated oriented grains. It is established that with a decrease in the particle size, the bulk density decreases, and the compaction increases. Pycnometric density and specific surface area values are approximately equal for all powder samples.
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