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1)  diamond anvil cell
金刚石压砧装置
1.
The capacitance,resistance pressure relationships for the low temperature phase of barium metaborate( β BaB 2O 4) have been studied at room temperature at pressure up to 16GPa in a diamond anvil cell using capacitance and resistance measurements.
金刚石压砧装置上,采用电容和电阻测量方法研究了偏硼酸钡低温相晶体(β-BaB2O4)在室温下和16GPa内的电容、电阻与压力的关系。
2)  diamond anvil cell
金刚石压砧
1.
Effect of uniaxial stress field on determination of equation of state in diamond anvil cell;
金刚石压砧内单轴应力场对物质状态方程测量的影响
2.
The R-p and C-p relationship of ZnO nanowires were determined by diamond anvil cell(DAC),and compared with those of ZnO nanocrystals and bluk materials in the previous experiments.
在金刚石压砧上测量了ZnO纳米线R-p和C-p关系,并和原先测量的纳米晶及体相ZnO的结果进行了比较。
3.
The investigation of equation of state(EOS) for matter under high pressure conditions by synchrotron radiation X-ray diffraction in combination with diamond anvil cell(DAC) are introduced in this paper.
介绍了利用同步辐射X射线衍射技术,结合金刚石压砧技术,研究材料在高压条件下的状态方程,以润滑剂MoS2为例,用Birch-Murnaghan状态方程来拟合实验数据,得到材料的体和弹性模量。
3)  diamond-anvil cel
金刚石砧压槽
4)  Diamond anvil cell
金刚石压腔装置
1.
Using synchrotron radiation and diamond anvil cell(DAC) in high pressure research station of Beijing Synchrotron Radiation Facility(BSRF),energy dispersive X-ray powder diffraction(EDXD) of the natural enstatite collected from Damapin in Hebei Province,have been in situ measured under room temperature and high pressure(0~31.
64 GPa)下,利用金刚石压腔装置(DAC),进行了能量色散X射线粉末衍射(EDXD)原位测量,得到了顽火辉石在不同压力下的衍射图谱,并利用UnitCell软件进行解谱,获得了其晶胞参数a、bc、和晶胞体积V及其随压力的变化,最后利用Murnaghan等温方程得到了天然顽火辉石的体积模量KT(0)=172 GPa、压缩系数及p-V状态方程,发现沿a、b、c三方向的压缩系数存在明显的各向异性,结果与斜方辉石的弹性波速各向异性完全一致。
5)  DAC technique
金刚石压砧(DAC)技术
6)  diamond anvil cell
金刚石对顶砧
1.
Thickness measurement of sample in diamond anvil cell
金刚石对顶砧上样品厚度的测量方法
2.
The electrical properties of stoichiometric iron sulfide(FeS) were investigated under high pressure with a designed diamond anvil cell(DAC).
通过金刚石对顶砧上原位电阻测量方法,在0~88。
3.
Using finite element analysis,the authors studied the relative error of the van der Pauw method for resistivity measurement in diamond anvil cell(DAC).
利用有限元分析方法(FEA)对金刚石对顶砧(DAC)中范德堡法测量极微小样品电阻率的误差进行数值模拟与分析,结果表明,对于极微小样品,电极与样品的接触面积是影响电阻率精确测量的重要因素,测量误差随接触面积的增大而增大,对半导体材料尤其明显。
补充资料:石砧
1.捣衣石。
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