矿业科学学报2018,Vol.3Issue(3):284-289,6.DOI:10.19606/j.cnki.jmst.2018.03.010
高温高压合成金刚石用叶蜡石腔体热导率研究
Research on thermal conductivity of compressed pyrophyllite block during diamond synthesis at HT/HP
摘要
Abstract
For the in situ testing problems of thermal conductivity of pyrophyllite at HT/HP, in the paper the thermal conductivity of compressed pyrophyllite block before and after diamond synthesis at HT/HP were tested by using the comprehensive property measurement system PPMS and laser conductometer LFA427. The results showed that the thermal conductivity of compressed pyrophyllite before diamond synthesis was about 6. 45 W/ (m · K), which was 2. 77 W/ (m · k) after diamond synthesis at HT/HP. It was found that the thermal conductivity in the intermediate layer of pyrophyllite block was the largest, followed by the inner, and the outer layer of pyrophyllite block was the minimum. XRD analysis results showed that the crystal plane distance of pyrophyllite block was expanded instead of compressed after HT/HP process with the biggest expansion ratio at the intermediate layer, then the inner layer and the minimum in the outer layer of the block. Therefore it seem that the decrease of the thermal conductivity was obviously related with interplanar spacing expansion of pyrophyllite after HT/HP process. According to the theoretical thermal conductivity model of the spring oscillator, the decrease of the thermal conductivity of the pyrophyllite block after HT/HP process was explained, and the thermal conductivity of compressed pyrophyllite block under HT/HP of diamond synthesis was deduced to be about 10. 13 W/ (m·K).关键词
叶蜡石/热导率/高温高压/晶面间距Key words
pyrophyllite/thermal conductivity/high temperature and high pressure (HT/HP)/interplanar spacing分类
矿业与冶金引用本文复制引用
邓雯丽,邓福铭,杨雪峰,马向东,许晨阳,解亚娟..高温高压合成金刚石用叶蜡石腔体热导率研究[J].矿业科学学报,2018,3(3):284-289,6.基金项目
国家自然科学基金(51172278) (51172278)
北京市自然科学基金与北京市科学技术研究院联合基金(L150012) (L150012)
