1) W1/O emulsion
W1/O乳液
1.
The stability of W1/O emulsion produced in the technology of microencapsulation method for preparing polystyrene hollow microspheres was studied by phase-separation method.
采用分相法研究了微封装法制备聚苯乙烯空心微球W1/O乳液的稳定性。
2) W1/O/W2 multiple emulsions
W1/O/W2型多相乳液
1.
Comparing with traditional emulsion systems, multiple emulsions, especially W1/O/W2 multiple emulsions have rather unique property and have been considered as one of the most useful emulsion types of cosmetics in the future for further development.
由于与传统的两相乳液相比,多相乳液特别是W1/O/W2型多相乳液具有突出的优点而被认为是当今最有发展前途的化妆品乳化体之一,在国际上受到越来越多化妆品配方师的关注。
3) W/O emulsion
W/O乳液
1.
we research on that how to form a stable W/O emulsion with various emulsors.
石膏模具是陶瓷工业生产中长期以来使用的传统模具,为了克服石膏模具的一些缺点,研究了不饱和树脂基模具的制备,以不饱和聚酯树脂为基体,加入各种助剂配制W/O乳液,然后加入复合乳化剂,最终制得微孔模具材料。
4) O/W/O emulsion
O/W/O型乳液
1.
An O/W/O emulsion was prepared by a double-step procedure in which an O/W emulsion was prepared in the first step, and then the O/W emulsion was "re-emulsified" in an oil phase.
我们使用了典型的不稳定型药剂视黄醇(维生素A),考察了O/W/O型乳液中药剂稳定性的效果。
5) O/W microemulsion
O/W微乳液
1.
At first, Pd(NO3)2 was recycled from the waste Pd-C catalyst, then, the palladium nanoparticles with size of 5 nm to 200 nm were generated in the O/W microemulsion of sodium dodecyl sulfate (SDS), Brij30 and H2O system by using nonionic surfactant Brij30 as the reducing agent.
从Pd-C催化剂废料回收Pd(NO3)2,然后在SDS/Brij30/H2O体系O/W微乳液中制备纳米钯。
2.
Fine particles of polyaniline were prepared in (An+O/W microemulsion)two phase system in which the An phase was used as a monomer source and the O/W microemulsion phase for polymerization.
选择合适的SDBS/苯胺/H2O三组分O/W微乳液与苯胺单体共存的两相体系,以单体相为单体源,在O/W三组分微乳液中进行了苯胺聚合,所得聚苯胺粒子大小仅为3nm,分布较均匀,且具有较好的导电性能。
6) O/W emulsions
O/W型乳液
1.
Experimental study on the preparation of O/W emulsions by SPG membrane emulsification;
利用SPG膜制备O/W型乳液实验研究
补充资料:多相乳液
分子式:
CAS号:
性质:由多个相组成的乳液。如所谓W/O/W、O/W/O多相乳液。原油开采时常形成O/W/O多相乳液。典型的水包油型乳液实际上也是多相乳液。
CAS号:
性质:由多个相组成的乳液。如所谓W/O/W、O/W/O多相乳液。原油开采时常形成O/W/O多相乳液。典型的水包油型乳液实际上也是多相乳液。
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