碳纤维复合材料界面性能评价方法研究进展

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英文篇名：Research progress in the interfacial performance evaluation of carbon fiber reinforced resin composite 作者：姚婷婷 ; 吴刚平 ; 刘玉婷 ; 宋红艳 英文作者：Yao Tingting;Wu Gangping;Liu Yuting;Song Hongyan;National Engineering Laboratory for Carbon Fiber Preparation,Institute of Coal Chemistry,Chinese Academy of Sciences;University of Chinese Academy of Sciences; 关键词：碳纤维 ; 界面性能 ; 单丝拉伸断裂法 英文关键词：carbon fiber;;interfacial performance;;single filament tensile fragmentation 中文刊名：HGXC 英文刊名：New Chemical Materials 机构：中国科学院山西煤炭化学研究所碳纤维制备技术国家工程实验室;中国科学院大学; 出版日期：2018-06-15 出版单位：化工新型材料 年：2018 期：v.46;No.549 基金：国家自然科学基金委-中石油联合基金项目(U1362107) 语种：中文; 页：HGXC201806004 页数：3 CN：06 ISSN：11-2357/TQ 分类号：18-20

摘要

碳纤维增强树脂复合材料的界面性能对其力学性能起着决定性的作用,因而对复合材料的界面粘结性的研究非常重要。综述了用于评价碳纤维增强树脂复合材料界面性能的几种微观表征方法:单丝拉伸断裂法、纤维拔出法和纤维脱粘法。最后指出影响单丝拉伸断裂法测试结果的因素。
        Interfacial performance of carbon fiber reinforced resin composites plays an important role because its mechanical properties,therefore it is imperative to research the interfacial adhesion.Several kinds of microscopic characterization methods used to evaluate the interface performance,such as single filament tensile fragmentation,the fiber pull-out method and debonding were reviewed.Finally,the influencing factors on monofilament tensile fracture method was pointed out.

引文

[1]Li D F,Wang H J,He F,et al.Structure and properties of T300and T700carbon fibers[J].Carbon,2007,45(6):1379.
    [2]Wu G P,Li D H,Yang Y,et al.Carbon layer structures and thermal conductivity of graphitized carbon fibers[J].Journal of Materials Science,2011,47(6):2882-2890.
    [3]Zielke U.Surface-oxidized carbon fibers:surface structure and chemistry[J].Carbon,1996,34(8):983-998.
    [4]曹霞,温月芳,张寿春,等.耐温型炭纤维乳液上浆剂[J].新型炭材料,2006,21(4):338-341.
    [5]Jiang D,Xing L,Liu L,et al.Interfacially reinforced unsaturated polyester composites by chemically grafting different functional POSS onto carbon fibers[J].Journal of Materials Chemistry A,2014,2(43):18293-18303.
    [6]Zheng W,Hu J,Han Z,et al.Synthesis of porous carbon fibers with strong anion exchange functional groups[J].Chemical Communications,2015,51(48):9853-9856.
    [7]Chand S.Carbon fibers for composites[J].Journal of Materials Science,2000,35:1303-1313.
    [8]秦文贞,于俊荣,贺建强,等.纤维增强复合材料IFSS及界面微结构的表征[J].高分子通报,2013,2:14-22.
    [9]李健芳,张娅婷,孙宏杰.国产高性能碳纤维复合材料界面性能研究[J].玻璃钢/复合材料,2013,5:28-31.
    [10]王松,陈朝辉,李伟.不同碳纤维表面状态及其复合材料界面对比[J].稀有金属材料与工程,2007,36:608-610.
    [11]Ruhul A J P,Khan A,Jones I A,et al.Interfacial properties of phosphate glass fiber/poly(caprolactone)system measured using the single fiber fragmentation test[J].Composite Interfaces,2011,18:77-90.
    [12]Awal A,Cescutt G,Ghosh S B,et al.Interfacial studies of natural fibr e/polypropylene composites using single fibre fragmentation test(SFFT)[J].Composites Part A,2011,42:50-56.
    [13]Deng S D,Ye L,Mai Y W,et al.Evaluation of fibre tensile stength and fibre/matrix adhesion using single fibre fragmentation tests[J].Composites P art A,1998,29:423-434.
    [14]Schadler S,Laird C.Interphase behaviour in graphite-thermoplastic mono filament composites[J].Journal of Materials Science,1992,27:4024-4034.
    [15]Ramirez F A,Carlsson L A,Acha B A.A method to measure fracture to ughness of the fiber/matrix interface using the single-fiber fragmentation test[J].Composites Part A,2009,40:679-686.