Self-healing materials have been made before, mainly polymers and composites.
以前研发的自我恢复型材料,大部分是复合或者合成物。
The main classes of materials are metals, polymers, ceramics, and composites.
材料的主要分类为金属、高聚物,陶瓷,及合成材料。
The characteristic mechanisms on wear failure of metals, ceramics, polymers and composites were summarized, and wear failure behaviors of different materials were distinguished as well.
本文总结了金属、陶瓷、高分子及复合材料的磨损失效机制,以及不同材料磨损失效行为的主要区别。
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 actuality of research in fretting of polymers and polymer-based composites are reviewed.
综述了聚合物及其复合材料微动摩擦学研究的现状。
A review is given of the research on composites including conductive polymers.
综述了有关导电聚合物复合材料的研究。
As one of the most important conductive polymers, attention is widely paid to the research and application of polyaniline (PANI) composites in recent years.
聚苯胺(PANI)是最重要的导电聚合物之一,近年来,其复合材料的研究和应用越来越受到重视。
Polymer polyether polyol composites (PPOCs), which are stable dispersions of glassy polymers in polyether polyols, provide a feasible method for particle reinforcement of polyether materials.
聚合物聚醚多元醇(PPOC)是由微米级聚合物粒子在聚醚多元醇中原位形成的稳定粒子分散体,它为聚醚材料的粒子增强提供了方便的途径。
Filling nanoparticles into polymers can not only improve the mechanical properties of composites, but also endow polymers with novel functional properties.
因此纳米粒子填充在聚合物中,不仅能提高材料的各方面性能,还能赋予聚合物新的功能。
Filling nanoparticles into polymers can not only improve the mechanical properties of composites, but also endow polymers with novel functional properties.
因此纳米粒子填充在聚合物中,不仅能提高材料的各方面性能,还能赋予聚合物新的功能。
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