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1)  recast membrane
再铸膜
1.
SW,EW tests and FT-IR,XRD analysis show the similarity of the recast membrane and the as-received Nafion~ membrane.
利用异丙醇水溶液溶解废弃Nafio n膜,异丙醇体积分数在60%~75%之间的水溶液能在220℃相对较快的溶解Nafio n膜制得溶液,利用二甲基亚砜(DMSO)作为溶剂制备再铸膜
2.
With different high boiling point additives,recast membranes were prepared at different temperatures.
分析了再铸膜的离子交换容量、水含量和水中溶解性等,并利用傅立叶红外分析了再铸膜的结构。
2)  recast nafion membrane
再铸Nafion膜
1.
The cell performances of the recast Nafion membranes are evaluated in order tocompare with those of the commercial Nafion membranes.
溶液-浇铸法对商业化Nafion膜的溶解液制备再铸Nafion膜,采用再铸Nafion膜组装PEMFC进行了电池性能评价,与厚度相近的商业化Nafion膜进行了比较,同时对再铸Nafion膜组装的PEMFC进行了短期稳定性考查。
3)  recast [英][,ri:'kɑ:st]  [美][ri'kæst]
再铸
4)  recast layer
再铸层
1.
The harm of recast layer formed by laser drilling of Ni-based superalloys and the progress made on its control were introduced in this paper.
综述了镍基超合金激光打孔再铸层的危害 ,介绍了在控制再铸层方面的研究进
2.
In order to solve the Achilles heel of recast layer and heat affected zone produced during laser machining,a new processing of neutral salt solution assisted laser machining(SALM) is put forward,which can remove recast layer and heat affected zone(HAZ) on-line by using the effect of salt solution on the thermal chemical reaction and continuing cooling effect of materials.
针对激光加工存在再铸层、热影响区(HAZ)的致命缺陷,提出了中性盐溶液辅助激光加工(SALM)方法,利用中性盐溶液对材料的热化学作用和持续冷却作用在线去除再铸层和热影响区。
3.
Due to the rapid heating and cooling effects induced by the machining process, the recast layer will form on the surface of the part, which is very hard and contains many imperfections such as micro pits and micro cracks.
但是电火花加工后的孔内壁表面会形成再铸层。
5)  membrane forming system
铸膜液
1.
Effect of ethylene glycol monobutyl ether on membrane forming systems and polyethersulfone with cardo performance and structure;
乙二醇甲醚对聚芳醚砜铸膜液体系及膜性能与结构的影响
6)  solution casting technique
溶液铸膜
1.
Two kinds of ionic polymer membrane of poly(ethylene co vinyl alcohol) end-capped with sulfonic acid(EVOH-g-SO3H) have been prepared by two methods respectively,one way is solution casting technique and the other is electrospinning.
采用高压静电纺丝技术和溶液铸膜法两种工艺分别制备了两种磺化乙烯-乙烯醇(EVOH-g-SO3H)离子聚合物膜,并采用扫描电子显微镜(SEM)分别对两种膜的微观形貌进行了表征,比较了两种离子聚合物电解质膜的吸水性、离子交换容量(IEC)、力学性能和质子电导率。
补充资料:铸膜液
分子式:
CAS号:

性质:铸膜液指把膜材料-高分子化合物溶于良溶剂中,再加入致孔剂所形成的高分子溶液。铸膜液中各组分的配比不同,制得的膜分离性能和几何形状各不相同。纺制中空纤维膜,要求膜材料浓度高一些,制平板膜,膜材料浓度可低一些。铸膜液中膜材料浓度高,膜的透水量少,耐压实性好;反之,透水量大,耐压实性差。铸膜液中致孔剂影响膜的截留分子量,一般有正比趋势。铸膜液的变化,只能在膜材料允许范围内改变膜的分离性能,如聚砜只能制成超滤膜和微滤膜,不能制成反渗透膜;影响膜分离性能的显著因素为:膜材料>铸膜液>制膜条件>后处理。

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