非弹性体增韧拓展了PS增韧改性研究的新领域,纳米粒子增韧开辟了PS增韧改性研究的新方向。
It was pointed out that toughening by non-elastomer materials broadened the research field and toughening by nano-particle created a new direction for study on modification of PS.
指出非弹性体增韧拓展了高分子材料增韧改性研究的新领域;纳米粒子增韧开辟了高分子材料的研究新方向。
It was pointed out that toughening by non-elastomer materials broadened the research field for modification of polymers and toughening by nano-particle created a new study direction of the polymers.
目前,人们通过向PA6、PA66 中添加聚烯烃、高性能工程塑料、无机非弹性体及PA 间共混等方法来提高PA6、PA66的韧性,不断开发增韧PA6、PA66的新品种。
The toughness of PA6, PA66 will be improved by adding polyolefin, highperformance engineering plastics, inorganic non-elastomer and other PA.
本文根据粘弹性体的理论与复变函数理论给出了非圆形巷道(洞室等)的粘弹性解析解。
This paper gives an analytic solution of non-circle opening based on linear viscoelastic theories and theory of function of a complex variable.
本文将非均质弹性体的渐近均匀化方法应用于复合材料的宏观与细观分析之中。
In this paper, the method of asymptotic homogenization for periodic media is employed for predicting macro and microscopic properties of unidirectional composites.
本文将非均质弹性体的渐近均匀化方法应用于复合材料的宏观与细观分析之中。
In this paper, the method of asymptotic homogenization for periodic media is employed for predicting macro and microscopic properties of unidirectional composites.
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