晶体材料

辐射传感器依赖于晶体材料，长株潭。

The radiation sensor relies on a crystalline material , CZT .

一种天然的或人造的晶体材料，具有压电性和半传导性。

A natural or synthetic crystalline material having piezoelectric or semiconducting properties .

新型红外晶体材料磷化镓（GaP）的生长结构缺陷及其性能

Structural Defects of IR Optical Material Growth of Gallium Phosphide and Properties

纯Al纳米晶体材料的力学性能研究

Study on the Mechanical Properties of Pure Bulk Al with Nanocrystalline

介绍了X射线荧光光谱在人工晶体材料组成分析中的应用。

The applications of X-ray fluorescence spectrometry in elemental analysis of crystals were reviewed .

钨青铜（TB）型晶体材料的分子设计及其新进展

Molecule Design of Tungsten Bronze ( TB ) Crystal Materials and Its New Developments

介绍了用X射线测定多晶体材料微观应变的新方法（非卷积方法）。

A new method ( non-convolution method ) is introduced for determining the microstrains of polycrystalline materials by X-ray diffraction .

IC技术是指以半导体晶体材料为基础，采用专门工艺技术组成的微小型电路或系统。

IC technology is microcircuit or system of introducing specific technology and is based on semiconductor material .

氧化锌（ZnO）晶体材料作为最重要的光电子材料之一在当今高科技领域日益受到重视。

Zinc oxide ( ZnO ) crystal is one of the most important photoelectric materials at the present time .

化学溶液分解法制备Bi4Ti3O（12）纳米晶体材料

Bi_4Ti_3O_ ( 12 ) Nanocrystalline Materials Prepared by Chemical Solution Decomposition

具有双螺旋链的新型二维无机-有机骨架晶体材料Ni（PDC）（H2O）2的合成与结构

Synthesis , Structure of a Novel Two-dimensional Inorganic-organic Framework Ni ( PDC )( H_2O ) _2 with Double Helical Chains

而本文的非破坏方法克服了这一点，这对于昂贵的SiC晶体材料有着突出的现实意义。

The non-destructive measurement method in this article can overcome this , which has practical significance for expensive SiC crystal materials .

基于DEFORM的三维多晶体材料微结构的有限元分析

Finite Element Analysis for 3D Polycrystals by Using DEFORM

高温热管MCT晶体材料生长炉

The High Temperature Heat Pipe Furnace for MCT Crystal Material Growth

InP晶体材料中的杂质

Impurity in InP Crystal Material

新型二维无机-有机骨架晶体材料Zn3（PTC）2（H2O）8·4H2O的合成、结构与荧光性质

Synthesis , Structure and Fluorescence Properties of a Novel Two-dimensional Inorganic-organic Framework Material Zn_3 ( PTC ) _2 ( H_2O ) _8 · 4H_2O

用于光纤通信的Bi∶DyIG磁光晶体材料研究

Study of Bi ∶ DyIG Magneto-optical Crystal Materials Used in Fiber Communication

但是，KDP晶体材料各向异性对加工的粗糙度质量有很大的影响。

However , the anisotropy of KDP crystal has a great effect on the surface roughness .

因此，研究超精密切削KDP晶体材料的各向异性对加工表面粗糙度的影响具有重要的意义。

So , it is important to study the effect of KDP crystal anisotropy on the surface roughness .

本文报道了浓度大，稳定性好的色心激光晶体材料NaCl（OH~-）：（F2~+）u的制备过程。

This paper reports the preparation of NaCl ( OH ~ - ): ( F_2 ~ + ) H , a fairly stable and concentrated color center laser crystal material .

研究表明，降低粉末的电导率的粉末处理方法能有效降低粉末中阴离子含量，提高HPZnS晶体材料的红外透过率。

The result shows that such a method is effective on increasing the transmittance of HP-ZnS crystals by lowering the conductance of powders to reduce anion concentration .

功能晶体材料NaEr（WO4）2单晶的生长与性能研究

Growth and Properties of Functional Crystal NaEr ( WO_4 ) _2

试验部分旨在设计相关试验，以研究微裂纹前缘K的各向异性程度与多晶体材料当地微观组织的关系，为建立有效的微裂纹丌裂判据准备试验数据及相关资料。

The experiment part is to design interrelated exam plans to investigate the relation between anisotropy K along microcrack front and the local microstructure , acquire the correlated exam datum for the establishment of microcrack propagating criterion .

红外非线性晶体材料AgGa（1-x）InxSe2的生长和性能表征

Growth and Characterization of IR Nonlinear AgGa_ ( 1-x ) In_xSe_2 Crystals

晶体材料KTP和LiTaO3的光波导特性

Properties of Planar Optical Waveguide in KTP and LiTaO_3 Crystals

这说明在常温常压水-乙醇反应体系下，可获得纯度、结晶度较好的纳米HA晶体材料，且晶体完整，具有与人体骨羟基磷灰石晶体相似的结构特征。

The results indicate that pure Nano-sized HA crystals can be prepared in the condition of water-ethanol system and normal temperature and pressure , which has a similar structure to that of bone .

对立方晶系多晶体材料的ODF测算及可视化处理，有助于获得材料的织构类型与分布规律。

Calculation and visualization for ODF of cubic crystal , which is helpful to obtain types of texture and rules of distribution .

并探讨了KDP作为非线性晶体材料三阶非线性系数测量基准的可行性。

As a result , we discussed the possibility of using KDP as the standard in measuring the coefficient of nonlinear optical crystals .

内量子效率则取决于LED的内部多量子阱微观结构及晶体材料特性和质量，内量子效率的研究是目前LED发光效率研究的切实而有效的突破点。

The internal quantum efficiency is depending on the micro-structure characteristics of the internal MQW crystal materials . The internal quantum efficiency is one of the most important points to have breakthrough in the research of the solid state lighting technology .

本文介绍一种利用Link－OPAL系统电子背散射衍射（EBSD）技术对多晶体材料脆性解理刻面晶体学位向测定的方法。

The method using electron backscatter diffraction ( EBSD ) in Link OPAL system was developed to determine the orientation of cleavage facets in polycrystalline materials in this paper .