1) phase separation induced by vapor phase
蒸汽诱导
1.
The NC membranes were prepared by casting and coagulation, phase separation induced by vapor phase, and dry-cast process in the paper.
本论文分别采用直接浸入法、蒸汽诱导法以及干法制备了NC膜,初步探讨了它们的成膜机理,并考察了NC膜对蛋白质的吸附性能,具体研究内容如下: (1) 分别以丙酮、二甲基乙酰胺、二甲基亚砜为溶剂,采用直接浸入法制得NC膜,并考察了凝胶浴中溶剂含量对膜结构的影响。
2) vapor-induced reaction
蒸汽诱导反应法
3) steam pipe
蒸汽导管
1.
The reason to cause the big error in the experiment for measuring the heat of vaporization is analyzed, and the influence of the material of steam pipe on the experimental error is studied in particular.
分析水的汽化热实验中误差的产生原因 ,重点探讨蒸汽导管的选择对汽化热测量的影响 。
4) water vapor induce
水蒸气诱导
6) steam tube
蒸汽导气管
1.
HH951 special phosphatizing solution was developed for the room temperature phosphatizing of the steam tubes in largescale thermal power plant.
研究HH951磷化液用于大型电厂蒸汽导气管的室温磷化工艺。
补充资料:蒸汽裂解轻芳烃的石脑油与富含1,3-戊二烯蒸汽裂解轻芳烃的石脑油和蒸汽裂解中芳烃的石脑油的聚合物
CAS:68527-25-3
中文名称:蒸汽裂解轻芳烃的石脑油与富含1,3-戊二烯蒸汽裂解轻芳烃的石脑油和蒸汽裂解中芳烃的石脑油的聚合物
英文名称:Naphtha, petroleum, light steam-cracked arom., polymer with light steam-cracked arom. petroleum naphtha piperylene conc. and medium steam-cracked arom. petroleum naphtha
naphtha (petroleum), light steam-cracked arom.,polymer with light steam-cracked arom. petroleum naphtha piperyleneconc. and medium steam-cracked arom. petroleum naphtha
Naphtha,petroleum,light steam-cracked arom.,polymer with light steam-cracked arom. petroleum naphtha piperylene conc. and medium steam-cracked arom. petroleum naphtha
中文名称:蒸汽裂解轻芳烃的石脑油与富含1,3-戊二烯蒸汽裂解轻芳烃的石脑油和蒸汽裂解中芳烃的石脑油的聚合物
英文名称:Naphtha, petroleum, light steam-cracked arom., polymer with light steam-cracked arom. petroleum naphtha piperylene conc. and medium steam-cracked arom. petroleum naphtha
naphtha (petroleum), light steam-cracked arom.,polymer with light steam-cracked arom. petroleum naphtha piperyleneconc. and medium steam-cracked arom. petroleum naphtha
Naphtha,petroleum,light steam-cracked arom.,polymer with light steam-cracked arom. petroleum naphtha piperylene conc. and medium steam-cracked arom. petroleum naphtha
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