光谱分析

高炉炉渣X射线荧光光谱分析方法研究

Study on Method of X-ray Fluorescent Spectrum Analysis of BF Slag

K&13高温合金中Al、Ti、W、B的光谱分析

The Spectrum Analysis of Aluminium , Titanium , Tungsten and Boron in Superalloy K-13

不同pH值的酸处理DNA溶液的拉曼光谱分析

Spectral Analysis of DNA Solution Treated with Acid of Various pH

X射线荧光光谱分析经验系数法的理论分析

Theoretical analysis of the empirical coefficient methods for fluorescent X-ray spectrometry

钕-铁系稀土永磁合金的X射线荧光光谱分析

Analysis of Nd-Fe rare earth permanent magnetism alloy by X-ray fluorescence spectrometry

X射线荧光光谱分析检出限计算公式

Calculation formulas of detection limit in X-ray fluorescent spectrometry

红外吸收光谱分析（IR），具有多糖及蛋白质的特征吸收峰。

IR showed that the absorption peak of sugar and protein .

光电光谱分析电炉钢中微量Ca

Analysis of Trace Calcium in EAF Steel by Photoelectric Spectrometer

锡石细泥中锡的X荧光光谱分析&粉末内标法

X ray fluorescence spectral analysis of tin in cassiterite slime powder internal standard method

CCD近红外光谱分析技术在测定红烟硝酸中的应用

CCD Near Infrared Spectrophotometry for the Analysis of Red-fuming Nitric Acid

广西黎塘红土风化壳X射线衍射和红外吸收光谱分析研究

Study on X-ray diffraction and infrared absorption spectra of Litang laterite weathering crust , Guangxi

纳米磷化镓粉体还原氮过程的Raman光谱分析

Analysis of Raman Scattering of Gallium Phosphide Nanoparticles Undergoing Nitrogen Reduction

利用Raman光谱分析膜层结构；

Film structure was characterized by Raman spectroscopy .

Raman光谱分析表明，薄膜为典型的类金刚石（DLC）薄膜。

Visible Raman spectra show the films are typical amorphous DLC films .

经PAGE电泳、纸层析、紫外光谱分析鉴定，两者都为均一组分。

Identified by paper chromatography , PAGE electrophoresis and ultraviolet spectrum , it was proved that both lew and lea were of homogeneous compositions .

本文对利用CCD作传感器件进行光谱分析的方法进行了理论和实验研究。

The theory and experimental method to measure spectrum by means of linear CCD is studied in this paper .

当基片温度提高到550℃时，Raman光谱分析表明，样品为炭膜。

When the substrate temperature was increased to 550 ℃ Raman analysis showed that the deposits were carbon films .

采用TEM和显微Raman光谱分析法检测硅片磨削表面层损伤的微观结构。

The microstructure of surface layer damages of silicon wafers after grinding is measured by TEM and Raman microspectroscopy .

锆刚玉质耐火材料的X射线荧光光谱分析法湿化学法制备锆铝质耐火材料的抗热震性研究

Analysis of Zirconium Just Jade Nature Fire-Proof Material by X-Ray Fluorescence Spectrometry Study on thermal shock resistance of zirconia-alumina refractory prepared by wet-chemical process

UVA和UVB区段紫外线照射对DNA影响的拉曼光谱分析

Raman Spectroscopic Analysis of Influence on Herring Sperm DNA with UVA & UVS Radiation

稀土铝硅复合脱氧剂主量元素的XRF光谱分析

Main elements of rare-earth-aluminium-silicon ( Re-Al-Si ) compound deoxidizers by XRF spectrometer

测试了该试样在一系列刹车速度时的摩擦磨损性能，并对其摩擦面及磨屑进行了SEM观察，对摩擦面进行显微喇曼光谱分析。

SEM graphs of the friction surface and the wear debris and the analysis of micro Ramam spectra of the friction surface are given .

钠蒸气近4D能级双光子共振光谱分析

The Analysis of Spectrum near the 4D Two-photon Resonance in Sodium Vapor

MPCVD金刚石的Raman光谱分析

Raman Spectro-analysis of MPCVD Diamond Films

MIM隧道发光结的光谱分析及负阻现象

Analysis of Light-Emission Spectrum and Discussion of Negative Resistance Phenomenon of MIM Tunnel Junctions

用X射线衍射分析（XRD）、扫描电子显微术（SEM）和傅立叶变换红外光谱分析（FTIR）综合表征了产品的形貌及结构情况。

The product 's characterization was carried out by X ray diffraction ( XRD ), scanning electron microscopy ( SEM ) and fourier transfer infred spectrometer ( FTIR ) .

以日本AR中间相沥青为原料，通过对其元素分析、红外光谱分析、热台偏光显微镜观察及流动特性测试等，确定其组成及结构，分析加热过程中其形态结构变化。

The composition and structure of AR mesophase pitch were studied by the means of elemental analysis , FT-IR , polarized light microscop with hot-stage and so on .

由UV-vis漫反射光谱分析可知，混晶TiO2膜在波长190-380um范围内具有很强的紫外吸收性能。

Mixed crystal TiO2 film has a strong UV absorption properties in the wavelength range of 190 ~ 380 nm by UV-Vis diffuse reflectance spectroscopy .

利用红外光谱分析表征了改性PF的结构，推断了改性机理及热固性改性PF的结构特征。

The structure of modified phenolic resin , modification mechanism and The structure character of thermosetting modified phenolic resin is analyzed by FT-IR .

通过对所获晶体的红外光谱分析、熔点测定、纸层析鉴定，证明所获晶体确为维生素C前体2－酮基－L－古龙酸（2－KGA）。

Analysis through infrared spectrum , melting point determination , and paper chromatography , the crystal was identified as 2 - keto - gluconic acid .