摘要
在Bridgman压砧上研究了不同预烧工艺对叶蜡石封垫高压性能的影响,发现提高焙烧温度有助于提高叶蜡石封垫的临界厚度和中心弹性区面积,能有效扩大样品腔尺寸,并对高温焙烧(最高900℃)的叶蜡石封垫进行了压力标定。在此基础上,对叶蜡石封垫的内加热组装方式进行了改进,并在常压和高压下分别测试了新组装方式的加热性能,实现了4.0GPa高压下1 300℃温度范围内的加热。这些实验工作为进一步开展在Bridgman压砧上制备大尺寸亚稳材料提供了实验条件。
We investigated the effects of the roasting course on behaviors of the pyrophyllite gasket under high pressures using Bridgman anvils.The results show that high roasting temperature is beneficial to increase the critical thickness and enlarge the area of the elastic central region of pyrophyllite gaskets,which helps to effectively enlarge the size of the sample chamber.The pressure calibration was carried out using the high-temperature(maximum 900℃)roasted pyrophyllite gasket.And based on this calibration,we measured the temperature at the center of the sample cavity with the improved internal heating assembly under ambient and high pressures respectively.The improved internal heating assembly expanded the heating range up to 1 300℃ under 4.0GPa,which provides a much greater variety of conditions for the preparation of bulk metastable materials in the Bridgman anvils.
出处
《高压物理学报》
CAS
CSCD
北大核心
2016年第4期271-276,共6页
Chinese Journal of High Pressure Physics
基金
国家自然科学基金(10299040
11004163
21503194)
中央高校基础科研业务费(2682014ZT31)
河南省教育厅科学技术研究重点项目(12B140018)
河南省教育厅科技攻关项目(152102210143)
关键词
Bridgman压砧
叶蜡石
焙烧温度
内加热
石墨
Bridgman anvil
pyrophyllite gasket
roasting temperature
internal heating
graphite
