材料物理化学,晶体学,微观结构。
Synthetic crystal, inorganic optoelectronic functional materials, functional composites, microstructures.
今年是现代晶体学诞生一百周年。 。
This year marks the centenary of the birth of modern crystallography.
断裂韧性与晶体学取向的关系亦作了分析。
The relationship between fracture toughness and crystal orientation hasbeen also examined.
对称规律在晶体学中得到了淋漓尽致的发挥。
The symmetry rules were exerted perfectly in crystallography.
结晶学国际统计表,卷f,生物大分子晶体学。
International Tables For Crystallography, Volume f, Crystallography Of Biological Macromolecules .
其在剑桥晶体学数据库的编号为290518。
提出了晶体学模型来研究多层薄膜滚压的表面粗糙度。
A crystallographic model has been presented for the surface roughness modelling of thin sheet rolling.
此法的实质是把衍射晶体学融合到高分辨电子显微学中。
The essential of approach is introducing the diffraction crystallography into HREM.
其二是对动力学效应在定量电子晶体学中的影响的研究。
The second is the study on the influence of dynamical effects in quantitative electron crystallography.
蛋白质电子晶体学已能以原子分辨率解析膜蛋白三维结构。
Protein electron crystallography is now able to measure the three-dimensional structure of membrane proteins at atomic resolution.
测定并探讨了亚温处理后中锰铸钢的晶体学特性和物理特性;
The crystallographic and physical characteristic for the medium-manganese cast steels after the intercritical heat treatment have also been examined and discussed.
强调了原子结构与晶体学,并特别注意于刚性几何加缀饰模型。
The atomic structure and crystallography are emphasized, with special attention to the rigid-geometry-plus-decoration models.
为了测定这个结构,他们使用了一种称为X射线晶体学的方法。
To map the structure, the pair used a method called X-ray crystallography.
膜蛋白的二维结晶化是蛋白质电子晶体学解析膜蛋白三维结构的基础。
Two dimensional crystallization of membrane proteins is the base on which their three dimensional structure are solved by electron crystallography.
铜单晶线材中位错蚀坑密度与材料浸蚀时间,变形量以及晶体学取向有关。
The dislocation etch pits density(EPD) of copper single wires is related with corroded time, deformative extent and crystal orientation of material.
简要总结了钢中珠光体相变的机制,特别是珠光体形核的晶体学和长大的动力学。
The mechanisms for the formation of pearlite in steels are reviewed in brief with particular reference to the role of crystallography in nucleation and the kinetics of growth.
IDMUAIC利用可靠的晶体学和结构化学知识,交替进行结构解析和强度分离。
By using both crystallographic and structural chemistry knowledge, the IDM-UAIC reconstructs the intensities and solves the structure through an iterative procedure.
对X光晶体学直接法中的毗邻理论联合概率标准化定积分的定义做了必要的讨论和扩充。
In this paper, the necessary discussion and extension are made on the standardized definite integral definition of joint probability of neighborhood theory in direct methods of X-ray crystallography.
阐述了定量电子晶体学测定晶体电荷密度分布的基本原理和方法、不足之处和改善途径。
The fundamental, method and deficiency of quantitative electron crystallography have been described, further improvement for it was discussed.
射线晶体学是研究分子详细的三维结构的主要方法——特别是已经发现的活体系统的分子。
X-ray Crystallography is the principal method by which the detailed 3 - dimensional structures of molecules - especially the molecules of living systems - have been discovered.
本文详细阐明了形状记忆合金的晶体学、热力学特性,概述了该材料的几种典型应用实例。
The crystallography and thermodynamics characteristics SMA are discussed in detail as well as typical application examples. Further...
运用X射线晶体学,科学家将大量的蛋白质或者病毒转换成了晶体形式,将其置于一束X射线光束之前。
In X-ray crystallography, scientists turn large quantities of a protein or virus into crystal form, placing it in front of an X-ray beam.
“我们实验室制作适当甲基化的均质组蛋白的能力对与晶体学是必需的,”Shokat说。
"The ability of our laboratory to make homogeneous histones with the appropriate methylation was essential for the crystallography," said Shokat.
但石蜡分子能在较小的范围内保持着短程有序排列,并且具有晶体学中所谓的类质同晶的特性。
However, paraffin wax molecules could keep shortrange regular arrangement and possess the properties of so-called isomorphism in crystallography.
实验上研究蛋白质结构的主要手段有X射线晶体学技术、核磁共振衍射技术、电子纤维技术等。
Currently, the main methodologies for high-resolution protein structure determination in experimentation have been available, such as X-ray crystallography, NMR, electron microscopy etc.
本文综述了自氧化锆被开发应用以来,人们关于氧化锆中马氏体相变晶体学和相变机制的研究成果。
The results of researching for crystallographic aspect and mechanism of martensitic transformation in zirconia ceramics have been reviewed in this paper.
叙述了VRML在晶体学中的实现方法,以及在晶体结构教学、结构绘图和结构分析、学术交流等方面的应用。
Depicts the implementation of VRML in crystallography; discusses its applications to the crystal structure teaching, crystal structure analysis and plotting, science exchange, etc.
本文将概括地介绍最近十几年中电子晶体学的一些最新进展及其在无机晶体结构解析方面的一些最新应用实例。
In this paper, some recent developments of electron crystallography and its applications in structure determination of inorganic crystals in the past decade are shown.
利用这种新型工具,Luger和他的同事进行了X射线晶体学和生物物理学研究,来看甲基化怎样影响染色质和核小体结构。
With this new set of tools, Luger and her colleagues did X-ray crystallographic and biophysical studies to see how methylation affects the structure of chromatin and nucleosomes.
利用这种新型工具,Luger和他的同事进行了X射线晶体学和生物物理学研究,来看甲基化怎样影响染色质和核小体结构。
With this new set of tools, Luger and her colleagues did X-ray crystallographic and biophysical studies to see how methylation affects the structure of chromatin and nucleosomes.
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