1) dispersion phase
分散外相
2) dispersed phase
分散相
1.
Study on dispersed phase size distribution in combined-blown converter with water modeling;
复吹转炉水模分散相粒度分布的研究
2.
Power-function representation of particle size distribution for dispersed phase in water modeling of converter
转炉水模分散相粒度分布的幂函数表征
3.
Based on the introduction of present formulation about dispersed particle dimension and coalescence probability of dispersed phase, it can be concluded that the combination of theory and experiment is an effective method of obtaining phase dimension of immiscible polymer blends.
阐述了不溶混聚合物共混体系相态的形成与发展过程 ,对影响共混体系相态尺寸的因素进行了分析 ,通过对目前建立的各种分散相粒径大小及其聚结概率计算公式的介绍与分析 ,认为理论与实验相结合的方法是获得不溶混聚合物共混体系相态尺寸的有效途
3) dispersion phase
分散相
1.
A recent use of the research achievement of reinforcing by on site composite technology was reviewed in this article,with a description made mainly with emphasis on the several fiber formation effecting factors,such as compatibility of the continuous phase and dispersion phase in the blend,viscosity ratio,interfa-cial tension,p.
本文综述了近年利用原位复合技术增强的研究成果,主要从共混体中连续相和分散相的相容性、黏度比、界面张力、加工成型参数(剪切速率、毛细管或口模的形状和大小、加工温度)这几个成纤影响因素作了重点阐述。
2.
The development process and reinforcing mechanism of the nanodispersion phase structure in the insitu polymerized nanoPZDMA/POE were investigated by microscopy and thermogravimetric analysis and the dependence of the stressstrain behavior and tensile strength of PZDMA/POE composite on the temperature was also studied.
利用显微镜观察和热分析方法研究了原位聚合纳米聚甲基丙烯酸锌(PZDMA)补强乙烯 α辛烯共聚物(POE)材料(简称PZDMA补强材料)的纳米分散相结构的生成历程和补强机理,探讨了PZDMA补强材料的应力 应变特性及拉伸强度与温度的关系。
3.
The droplet size and distribution of dispersion phase for emulsion explosives matrix were tested by laser particle analyzer.
结果表明:在一定条件下,水相析晶温度对分散相液滴大小与分布有较明显的影响;乳化搅拌速度存在一个临界值,本实验条件下此值为1230 r。
4) solution dispersion
液相分散
1.
Nanocrystalline Pb powders were prepared, starting from Pb granules, by solution dispersion method in paraffin oil, using polyglycol as a protecting agent and oxidation inhibitor.
以铅粒为起始原料 ,聚乙二醇为保护剂和抗氧化剂 ,采用液相分散法成功地制备出了铅纳米晶 ,并采用投射电子显微镜和X -射线粉末衍射仪对其形貌和结构进行了研究。
2.
Oil soluble tin nanoparticles with average diameter of 40 nm have been successfully prepared by solution dispersion method.
用液相分散法制得了油溶性锡纳米微粒 ,平均粒径为 4 0nm。
补充资料:分散外相
分子式:
分子量:
CAS号:
性质:见分散(物)系。
分子量:
CAS号:
性质:见分散(物)系。
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