1) X-Ray
[英]['eks reɪ] [美]['ɛks 're]
X-射线衍射法
1.
The principles of Differential Scanning Calorimetry, Electron Microscope,Nuclear Magnetic Resonance and X-Ray were introduced in this paper together with their applications in oil quality control, Development direction of investigation on oil quality control was also forecasted here.
介绍了现代物理化学方法(差示扫描量热法、电子显微镜、核磁共振法、X-射线衍射法)的原理及其在油脂质量控制中的应用,并预测了油脂质量控制研究的发展方向。
2.
Methods IR、X-ray、 ~(1)H-nuclear magnetic resonance(~(1)H-NMR) experiments were utilized to study the inclusion complex of DS-β-CD and its possible forms.
方法用红外光谱法、X-射线衍射法、1H磁共振(1H-NMR)等方法,确认β-CD与双氯酚酸钠包合及其包合的可能形式。
2) X-ray diffraction
X-射线衍射法
1.
The inclusion complex was identified by microscopy and X-ray diffraction.
方法采用饱和水溶液法,以收率和包合率为指标,用正交试验设计法筛选最佳包合条件,然后用显微镜法和X-射线衍射法分别对制备的包合物进行鉴定。
3) method for XRD
X线衍射法
1.
Study on the determination in micro-amounts of free SiO _2 in respirable dust in the air of workplace by a method for XRD;
方法 采用X线衍射法。
4) X-ray diffraction method
X射线衍射法
1.
The crystallinity of polypropylene was measured by X-ray diffraction method.
用X射线衍射法测定了注射成型聚丙烯的结晶度,并用偏光显微镜法观察了它的结晶形态。
5) X-ray diffractometry
X射线衍射法
1.
Ternary sublattice site occupancy in three Ll_2-structured TiAl_3 based intermetallic compounds were e-valuated by X-ray diffractometry.
采用X射线衍射法测定了Ll_2结构TiAl_3基有序金属间相中合金原子的位置。
6) X-ray diffraction
X射线衍射法
1.
X-ray diffraction method of measuring microball coat thickness
测量微球覆层厚度的X射线衍射法
2.
In the mean time it is measured by X-ray diffraction.
应用理论公式和ANSYS有限元分析软件对典型结构的应力分布进行了计算,同时应用X射线衍射法对该结构的应力进行了测试。
3.
The X-ray diffraction is chosen as the tool of residual stress measurement in CAS glass ceramics after comparison of several common measuring procedures .
分析了CAS系统微晶玻璃中热残余应力的形成机理,并对几种常见的残余应力的方法进行了比较,最后确定用普通X射线衍射法测定CAS系统微晶玻璃中的残余应力。
补充资料:掠射角X射线衍射法
分子式:
CAS号:
性质:采用了掠射角几何条件(入射角>75°)的X射线衍射法。以掠射角入射的X射线束的穿透力被限制,大大提高了分析样品的表面分析灵敏度,且能分析体积相对较大的样品,甚至薄层分析也成为可能。该技术适用于特殊晶相的识别,微晶方位及其尺寸分布的研究,吸附原子位置的测定;与电子衍射法相比,具有较高的角分辨率。
CAS号:
性质:采用了掠射角几何条件(入射角>75°)的X射线衍射法。以掠射角入射的X射线束的穿透力被限制,大大提高了分析样品的表面分析灵敏度,且能分析体积相对较大的样品,甚至薄层分析也成为可能。该技术适用于特殊晶相的识别,微晶方位及其尺寸分布的研究,吸附原子位置的测定;与电子衍射法相比,具有较高的角分辨率。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条