The vast majority of injection molding is applied to thermoplastic polymers.
注塑成型的绝大多数都用于热塑性聚合物。
Of this quantity 15% was added to thermoset ant 85% to thermoplastic polymers.
其中15%加于热固性聚合物,85%加于热塑性聚合物。
Polymer nanocomposites are formed from blends of nanometer sized fillers with either thermoset or thermoplastic polymers.
纳米复合材料是用纳米尺度的填料与热固性或者热塑性聚合物掺混而形成的。
Based on the study of melting behavior of thermoplastic polymers tested in the cone calorimeter, a differential numerical model for one-dimensional unsteady burning of polymers was put forward.
针对热塑性聚合物在锥形量热仪中燃烧测试时的熔融行为,提出了有限厚度的聚合物固体一维不稳态燃烧微分模型。
Its highly shear-sensitive flow behavior means that it remains easily dispersible also in even more incompatible polymers like thermoplastic elastomers.
它的高度剪切敏感性流动行为意味着它仍然很容易分散,即使在更不相容的聚合物中,如热塑性弹性体。
In-situ composites, consisting of reinforcing thermotropic liquid crystal polymers and thermoplastic matrix, are reviewed together with their preparation, structure and properties.
综述了由增强性的热致液晶高聚物和热塑料聚合物基体组成的原位复合材料及其制备、构和性能。
The polymers were characterized by IR, 1H NMR spectroscopy and DSC. The compatibilities of poly(2 ethyl 2 oxazoline) with some thermoplastic and copolymers are examined.
聚合物通过IR、1H核磁共振、DSC进行表征,并考察了聚(2乙基2唑啉)与部分聚合物和共聚物的共混性能。
This paper reviewed the recent years' studies on macromolecular materials toughened by thermoplastic resins, core-shell latexes, liquid crystal polymers or inorganic rigid particles, respectively.
对近些年来热塑性树脂增韧体系、核壳粒子增韧体系、液晶高聚物增韧体系及无机刚性粒子增韧体系等增韧高分子材料的研究进展进行了综述。
The experiment results indicated that these polymers had multiphase structures and were a new type of thermoplastic elastomer.
实验的结果表明,共缩聚醚酯聚酰亚胺具有多相结构,是一类新型的热塑性弹性体。
The results showed that some kinds of thermoplastic elastomer different in properties could be prepared by adopting different mass ratios of polymers, different plasticizers and different fillers.
结果表明,通过不同的聚合物质量配比、增塑剂的选择以及不同填料的选用,可制得不同性能的热塑性弹性体。
The results showed that some kinds of thermoplastic elastomer different in properties could be prepared by adopting different mass ratios of polymers, different plasticizers and different fillers.
结果表明,通过不同的聚合物质量配比、增塑剂的选择以及不同填料的选用,可制得不同性能的热塑性弹性体。
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