1.Objective To evaluate emulsifiability of emulsifying agent by method of comparative isotherm of the surface(interfacial) tension.
目的采用表(界)面张力等温曲线比较法评价泊洛沙姆等乳化剂的乳化能力。
2.SEM micrographs indicate that there existed perfect interfacial adhesion between the surface layer and the substrate one.
对过渡层研究结果表明,复合面层与混凝土基材间的粘接性优异。
3.It was found that there was no reaction between coating layer and aggregate through SEM studies on interfacial transition zone.
通过扫描电镜观察再生粗骨料的界面过渡区,发现涂浆层不与骨料本身反应。
4.Wetting agent: can reduce between the parts of solution and the interfacial tension, easy to be wet surface parts of the material.
润湿剂:能降低制件与溶液间的界面张力,使制件表面容易被润湿的物质。
5.Stress intensity factors for a three dimensional rectangular interfacial crack are considered on the idea of the body force method.
基于体积力法,研究了双材料接合半无限体三维矩形界面裂纹的应力强度因子问题。
6.Conclusions It is feasible to estimate emulsifiability to the method of isothermal curve of the surface(interfacial) tension .
结论乳化剂表(界)面张力等温线比较法用于评价乳化剂的乳化能力是可行的。
7.If you suspect that you might be in an interfacial marriage, don't be ashamed.
如果你猜想或许自己也会和异国人结婚,不要感到惭愧。
8.In-situ grafting MAH can be considered as a potential way of increasing the interfacial compatibility between plastic blends and wood flour.
原位接枝MAH可被看作是一种改善木粉与塑料混合物间界面相容性的有效途径。
9.and a gate stack separated from the substrate by an interfacial oxide layer.
以及,栅叠层,其通过界面氧化物层而与所述衬底分离。
10.Expressions for the change in interfacial tension as a function of electrolyte concentrations are derived.
表达的变化,界面张力随电解质浓度的计算公式。