The effect of blend modification on the membrane performances was also described.
同时介绍了膜材料共混改性对膜性能的影响。
When blend modification of HTPB and PU are done, the apparent crosslinking density of PU matrix in - creases, and the tensile strength of propellant enhances.
将端羟基聚丁二烯与聚氨酯进行共混改性,提高了聚氨酯基体的表观交联度及推进剂的拉伸强度。
It showed that the improvement of hydrophilicity, reactivity, biocompatibility, and biodegradation of PBS could be achieved by copolymerization and blend modification.
目前的研究表明,通过共聚、共混等改性方法可以改善PBS的亲水性、反应活性、生物相容性及降解行为。
The water-solubility of poly (vinyl alcohol) (PVA) films is analyzed from the polymer structure, the blend modification method is put forward to increase the water solubility of PVA films.
从聚合物结构方面分析了聚乙烯醇(pva)薄膜的水溶性,提出用共混改性方法提高PVA薄膜的溶解性能。
Chemistry modification together with blend modification was effective for the modification of the block copolymer. Radiation modification by electron beam and ultraviolet were an important trend.
将各种化学改性方法和共混改性方法结合起来运用,有条件时进一步使用电子束或紫外光改性,是其重要的发展趋势。
The methods of powder surface modification in existence are done in reaction kettle, blend machine, high speed mill, high speed crumb, liquid state jet mill etc.
现有粉体表面改性方法的具体实施是在反应釜、混合机、高速搅拌机、高速捏合机、液态流化床和高能磨中进行。
The effects of interfacial modification on torque of blend melt and crystallization behavior of PP were investigated.
以共混物平衡扭矩为参数考察了界面改性剂对共混物熔体扭矩的影响;
Enhancement of PEEK by adding continuous fibre and short fibre, particle fillers, surface modification and blend with polymers were reviewed.
本文从纤维增强PEEK、颗粒填充PEEK、PEEK表面改性、与聚合物共混等方面综述了PEEK改性研究的进展情况。
At present, there are mainly two modification methods which include physical blend and chemical modification. However, the former is less efficient than the latter.
目前主要有物理混合和化学改性两类改性方法,其中以化学改性的效果较好。
Higher polymer modification: it can blend with PE, PP and PS to modify their physical properties and widen their USES.
高聚物改性:可以与聚乙烯、聚丙烯、聚苯乙烯等塑料共混改性,改善其物理性能,使其获得更大范围的应用。
Higher polymer modification: it can blend with PE, PP and PS to modify their physical properties and widen their USES.
高聚物改性:可以与聚乙烯、聚丙烯、聚苯乙烯等塑料共混改性,改善其物理性能,使其获得更大范围的应用。
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