1) ICP spectrometry
等离子焰光谱
1.
An ICP spectrometry system has been employed to measure the contents of heavy metal elements in sediment cores collected from 4 sea areas of the the Mirs Bay.
用电感耦合等离子焰光谱技术测定大鹏湾4个采样站位沉积物岩芯中Pb,Mn,Ni,Cr,Cd和Fe,Mg,Zn,Cu,Co共10种重金属元素的浓度-深度关系,并根据相应的沉积速率分析了该海域的污染史。
2) plasma spectral analysis
等离子光谱
1.
Fifty-one trace elements in the natural gas of west Sichuan were discovered by using the method of laser plasma spectral analysis.
利用等离子光谱分析法进行检测,发现川西天然气中含有51种微量元素,其属性有碱金属、碱土金属、稀有金属、过渡金属、主族元素、卤素和非金属,以元素周期表上的第四、五、六周期的元素为主。
3) ICP
等离子发射光谱
1.
Simultaneously Determination of Cu,Zn,Fe,Mn,Pb,Cd in the Tomato Leaf Standard Sample by ICP;
等离子发射光谱法同时测定西红柿叶标样(ESP-1)中铜、锌等含量
4) ICP-AES
等离子发射光谱
1.
A new analysis method of detecting the molybdenum corrosion-inhibitive drug,copper and aluminum in pure water system for electric arc furnaces (EAF) with ICP-AES has been developed.
利用等离子发射光谱通过对钼的分析间接测定钼系缓蚀剂的含量 ,同时对系统中的铜、铝进行测定 ,使方法在准确反映电炉纯水系统钼系缓蚀剂的浓度变化的同时 ,跟踪系统使用的铜材、铝材的腐蚀情况。
2.
The fatty acids and trace elements in the Hirudinaria manillensis were analyzed by GC/MS and ICP-AES.
通过改良的Folch氏脂质的提取法、湿法消化法分别提取了菲牛蛭中的脂肪酸和微量元素,并采用GC/MS(气相色谱/质谱)法和ICP-AES(等离子发射光谱)法,对菲牛蛭中所含的脂肪酸和微量元素含量进行测定。
3.
This article introduced three identification methods of aged liquor under the stable storage condition, which are: ICP-AES determination of the content of metal elements, the measurement of liquor viscosity according to the colloidal characteristic of liquor solution, and the determination of the content of conjugated compounds through UV spectrometry.
介绍了年份酒在稳定的贮存条件下三种鉴别方法:等离子发射光谱法测定金属元素含量;利用白酒胶溶特性测定白酒粘度;紫外光谱法测定共轭体系化合物含量。
5) plasma spectrometer
等离子光谱仪
1.
The hardware and software configuration of host computer and data processing computer used by Shimadzu's ICPS 1000Ⅱplasma spectrometer is analyzed.
分析了日本岛津ICPS 10 0 0Ⅱ型等离子光谱仪的主机结构和与之配套的三菱 (Mitsubishi)专用数据处理计算机的硬件配置及软件结构 。
6) Plasma Spectrometer
等离子体光谱仪
1.
Improvement and application of the measurement and control system of JA750 type plasma spectrometers;
JA750型等离子体光谱仪测控系统的改造及应用
补充资料:等离子体喷焰
分子式:
CAS号:
性质:发射光谱分析激发光源,温度在数千至一万多度,试样以溶液喷雾法或粉末吹样法注入。它是在阳极和环状阴极间产生数十至百安直流电弧放电,将氩气或氮气沿轴向引入,由于热收缩和电磁收缩效应,弧焰等离子体受到压缩,由环状阴极的中心孔喷出,形成等离子体喷焰。
CAS号:
性质:发射光谱分析激发光源,温度在数千至一万多度,试样以溶液喷雾法或粉末吹样法注入。它是在阳极和环状阴极间产生数十至百安直流电弧放电,将氩气或氮气沿轴向引入,由于热收缩和电磁收缩效应,弧焰等离子体受到压缩,由环状阴极的中心孔喷出,形成等离子体喷焰。
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