结果显示,随着界面运动速率的提高,马氏体和母相之间的相界面能量增加,相界面的宽度下降。
The results show that the interface energy increases and the interface width decreases between martensite and parent with the increase of velocity of the interface motion.
复合材料的性能在很大程度上取决于分散相尺寸和两相之间的界面作用。
The properties of composites were extremely determined by the size of dispersion dimension and the interfacial action among the components.
另一方面,非晶相也由两种不同的分量组成:运动受限的各相异性的非晶界面相和高度可动的橡胶型的非晶相。
In addition, the amorphous phase also contains two components: an anisotropic interfacial amorphous phase and a melt-like amorphous phase.
扫描电镜分析结果表明,CA的加入改善了淀粉的塑化程度,提高了TPS在PE中的分散分散性,同时TPS和PE之间也没有了明显的相界面,基本上形成了一个均匀的连续相体系。
By SEM analysis, the addition of CA improved the mutual disperse of TPS and PE, and there also isn't obvious phase interface. So TPS and PE formed an evenly continuous phase system on the whole.
扫描电镜分析结果表明,CA的加入改善了淀粉的塑化程度,提高了TPS在PE中的分散分散性,同时TPS和PE之间也没有了明显的相界面,基本上形成了一个均匀的连续相体系。
By SEM analysis, the addition of CA improved the mutual disperse of TPS and PE, and there also isn't obvious phase interface. So TPS and PE formed an evenly continuous phase system on the whole.
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