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1)  micro-interface
微界面
1.
Just the size and other special characteristics contributed them to impose many significant the prominent characteristics of nano-pollutants in common and outstanding behaviors on the environmental micro-interface are discussed.
它们在微界面上的强烈吸附及各种反应就是突出的表现 。
2)  interface microvoid
界面微孔
1.
The results showed that:(1) PVDF /PVA were incompatible blends,new interface microvoid structure was produced as a result of phase separation in PVDF/PVA;(2) With PVA content increased,the water flux of PVDF/PVA blend membrane increased due proba.
结果表明,PVDF/PVA为不相容体系,在成膜过程中产生界面微孔;随PVA含量增加,PVDF/PVA共混膜水通量先增大后减小,在PVDF/PVA为8/2时呈较大值,截留率变化趋势则相反;PVA的存在明显改善了PVDF/PVA共混膜的亲水性,表现为随其含量增加共混膜接触角明显减小;随固含量增加,膜厚度增加,孔隙率降低,水通量减小,截留率升高;添加剂PEG600浓度为6%时,孔隙率高,水通量大,但截留率低;凝固浴种类直接影响膜结构及性能;热处理可完善膜结构从而获得性能更优的膜。
3)  interfacial microvoid
界面微孔
1.
The interfacial microvoids were created between the CaCO3 and PTFE matrix in the sintering processing,which are much different from the fibril-node pore structure produced by biaxial stretching method.
研究了无机粒子对共混膜结构及性能的影响,结果表明PT-FE与碳酸钙(CaCO3)粒子的粘结性差,在烧结成型过程中PTFE基质相与CaCO3产生界面相分离形成微孔,形成的界面微孔不同于PTFE双向拉伸产生的纤维-结点状裂隙孔结构。
2.
The results show using inorganic particle SiO2 as additive can introduce interfacial microvoids and enhance the properties of membrane,and PEG can improve the transfixion of interfacial microvoids.
对PVC/SiO2复合膜的形貌进行观察,分析和讨论了无机粒子SiO2含量对PVC/SiO2复合膜产生界面微孔的作用以及添加聚乙二醇(PEG)后PVC/SiO2复合膜性能的变化。
3.
The influence of SiO2,spinneret draft ratio on the formation of interfacial microvoid and their effects on membrane\'s properties were investigated.
观察纤维膜的形貌,分析讨论SiO2含量和喷丝头拉伸比,对于产生界面微孔的作用及其与膜结构和性能的关系。
4)  Interfacial microstructure
界面微结构
1.
A Study on the Interfacial Microstructure of Al 2O 3(p)/Al Mg Composites;
Al_2O_3(p)/Al-Mg复合材料界面微结构研究
2.
The interfacial microstructure of SiC fibre reinforced Ti-22AI-23Nb-2Ta alloy com- posite,which was prepared by hot pressing of magnetron sputtering coating precursor wire,was inves- tigated by analytical electron microscopy(AEM).
利用分析电子显微镜(AEM)研究了磁控溅射法+真空热压方法制备的SiC纤维增强Ti-22Al-23Nb-2Ta(原子分数,%)合金复合材料的界面微结构。
5)  Interface Microstructure
界面微结构
1.
Interface Microstructure of Mullite/Al-Cu-Si Composites;
MULLITE/AL-CU-SI复合材料界面微结构研究
6)  Micro-liquid/liquid interface
微-液/液界面
补充资料:寄微之 时微之为虢州长史。
【诗文】:
高天默默物茫茫,各有来由致损伤。
鹦为能言长剪翅,龟缘难死久搘床。
莫嫌冷落抛闲地,犹胜炎蒸卧瘴乡。
外物竟关身底事,谩排门戟系腰章?





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