化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
8期
2084-2088
,共5页
孟胜皓%闫军%汪明球%杜仕国%王琦
孟勝皓%閆軍%汪明毬%杜仕國%王琦
맹성호%염군%왕명구%두사국%왕기
碳纳米管%表面改性%纳米复合材料
碳納米管%錶麵改性%納米複閤材料
탄납미관%표면개성%납미복합재료
carbon nanotube%surface modification%nano-composite
对碳纳米管进行表面改性可提高碳纳米管的表面活性、分散能力和与基体材料之间的相容性,从而提高其在复合材料中的增强效果。本文介绍了碳纳米管表面改性的方法,分为物理法和化学法,物理法主要有高能机械研磨法、高能球磨法和超声振动法;化学法主要有酸处理法、偶联剂法、化学镀法、高能射线辐照法和原子转移自由基聚合法。在实际应用中常将几种改性方法联合使用,使得到的改性产物性能更稳定,性质更多样化。同时,介绍了改性后的碳纳米管在各种复合材料中的应用现状。并指出了对碳纳米管进行改性的两个重点:一是尽量保持碳纳米管的本身结构完整性;二是提高碳纳米管在基体中的分散性。
對碳納米管進行錶麵改性可提高碳納米管的錶麵活性、分散能力和與基體材料之間的相容性,從而提高其在複閤材料中的增彊效果。本文介紹瞭碳納米管錶麵改性的方法,分為物理法和化學法,物理法主要有高能機械研磨法、高能毬磨法和超聲振動法;化學法主要有痠處理法、偶聯劑法、化學鍍法、高能射線輻照法和原子轉移自由基聚閤法。在實際應用中常將幾種改性方法聯閤使用,使得到的改性產物性能更穩定,性質更多樣化。同時,介紹瞭改性後的碳納米管在各種複閤材料中的應用現狀。併指齣瞭對碳納米管進行改性的兩箇重點:一是儘量保持碳納米管的本身結構完整性;二是提高碳納米管在基體中的分散性。
대탄납미관진행표면개성가제고탄납미관적표면활성、분산능력화여기체재료지간적상용성,종이제고기재복합재료중적증강효과。본문개소료탄납미관표면개성적방법,분위물리법화화학법,물리법주요유고능궤계연마법、고능구마법화초성진동법;화학법주요유산처리법、우련제법、화학도법、고능사선복조법화원자전이자유기취합법。재실제응용중상장궤충개성방법연합사용,사득도적개성산물성능경은정,성질경다양화。동시,개소료개성후적탄납미관재각충복합재료중적응용현상。병지출료대탄납미관진행개성적량개중점:일시진량보지탄납미관적본신결구완정성;이시제고탄납미관재기체중적분산성。
Surface modification of CNTs can improve their surface activity,dispersion ability,and the compatibility between CNTs and base matrix,resulting in reinforcement of composite material. The methods of surface modification of CNTs are classified into physical methods and chemical methods. The physical methods consist of high-energy mechanical polishing method,high-energy ball milling method,and ultrasonic vibration method. The chemical methods consist of acid treatment method, method of coupling agent,electroless plating method,high-energy rays irradiation method,and atom transfer radical polymerization. In practical application,several modification methods can be used in combination to make the performance more stable and achieve more diverse properties. Meanwhile,the applications of modified carbon nanotubes to various composite materials are reviewed. Two focal points in modification of carbon nanotubes are proposed:one is to keep structural integrity of carbon nanotube itself,the second is to improve the dispersion of carbon nanotubes in the matrix.
