新型工业化
新型工業化
신형공업화
New Industrialization Straregy
2014年
7期
55-62
,共8页
聚合物纳米复合材料%电导率%热导率
聚閤物納米複閤材料%電導率%熱導率
취합물납미복합재료%전도솔%열도솔
Polymer nanocomposites%thermal conductivity%electrical conductivity
对碳纳米管、石墨烯的结构特征、制备方法以及与聚合物复合的制备方法进行了综述,同时分析了影响复合材料热导率、电导率的若干因素。在此基础上总结出:填料的选择及表面修饰改性、复合材料的界面合情况等方面深入研究是进一步提高复合材料电、热性能的有效途径。
對碳納米管、石墨烯的結構特徵、製備方法以及與聚閤物複閤的製備方法進行瞭綜述,同時分析瞭影響複閤材料熱導率、電導率的若榦因素。在此基礎上總結齣:填料的選擇及錶麵脩飾改性、複閤材料的界麵閤情況等方麵深入研究是進一步提高複閤材料電、熱性能的有效途徑。
대탄납미관、석묵희적결구특정、제비방법이급여취합물복합적제비방법진행료종술,동시분석료영향복합재료열도솔、전도솔적약간인소。재차기출상총결출:전료적선택급표면수식개성、복합재료적계면합정황등방면심입연구시진일보제고복합재료전、열성능적유효도경。
The structure and preparation of carbon nanotubes,graphenes and nano-carbon material/polymer nanocomposites have been reviewed. Meanwhile the effects on thermal and electrical conductivities of nanocomposites were anayzed. At last,some factors including selection of appropriate fillers,surface modification and interfacial interactions between polymer matrix and fillers are summarized to be important to improve thermal and electrical conductivities of nano-carbon material/polymer nanocomposites .
