石墨在固相剪切碾磨力场下的片层剥离及与PVC的纳米复合

复合材料学报, 2013, 30(2): 94-98.

石墨在固相剪切碾磨力场下的片层剥离及与PVC的纳米复合

李侃社 ^1, , 张升炎 ^2, , 牛红梅 ^3, , 康洁 ^4, , 陈创前 ^5,

1.西安科技大学化学与化工学院高分子研究所,西安,710054

2.西安科技大学化学与化工学院高分子研究所,西安,710054

3.西安科技大学化学与化工学院高分子研究所,西安,710054

4.西安科技大学化学与化工学院高分子研究所,西安,710054

5.西安科技大学化学与化工学院高分子研究所,西安,710054

基金项目: 高分子材料工程国家重点实验室开放课题基金陕西省13115科技创新工程重大科技攻关专项(2009ZDKG-62)

关键词： PVC , 石墨 , 固相剪切复合技术 , 磨盘碾磨 , 纳米复合材料 , 抗静电

Exfoliating interlayer and nanocompositing of graphite with PVC through solid state shear compounding technology

采用固相剪切复合技术成功制备石墨-聚氯乙烯(PVC)复合粉体,实现了石墨的片层剥离和在PVC基体中的纳米分散及对PVC的抗静电改性.通过XRD、SEM、TEM等表征了石墨-PVC/PVC复合材料的结构,研究了其抗静电性能.结果表明,石墨的片层厚度约20 nm,径厚比超过10.固相剪切碾磨技术制备的石墨-PVC/PVC复合材料的导电性能有较大提高.在石墨质量分数为2％时,表面电阻率为4.6×107 Ω·cm,已达到了抗静电材料的要求,实现了低填充.在石墨质量分数为10％时,表面电阻率达到最低的4.1×104 Ω·cm.

参考文献

[1]	周百良,李慧香.煤矿中阻燃抗静电管道的重要性及阻燃抗静电PVC管材的应用[J].聚氯乙烯,2011,38(8):22-27.Zhou Bailiang,Li Huixiang.Importance of antiflarning and antistatic pipes in coal mines and application of antiflaming and antistatic PVC pipes[J].Polyvinyl Chloride,2011,38(8):22-27.
[2]	孙业斌,张新民.填充型导电高分子材料的研究进展[J].特种橡胶制品,2009,30(3):73-78.Sun Yebin,Zhang Xinmin.Research progress of conductive filled polymer composites[J].Special Purpose Rubber Products,2009,30(3):73-78.
[3]	Srivastava A,Singh V,Chandra A,Witte K,Scherer U W,Singh T V.Electrical conductivity studies of swift heavy ion modified PVC and PVC-PANI composite[J].Nuclear Instruments and Methods in Physics Research B,2006,245:277-280.
[4]	Potts J R,Dreyer D R,Bielawski C W,Ruoff R S.Graphenebased polymer nanocomposites[J].Polymer,2011,52:5-25.
[5]	曹清华,孟庆荣,贾伟灿,等.高比表面积炭黑/聚丙烯导电复合材料[J].复合材料学报,2012,29(2):59-64.Cao Qinghua,Meng Qingrong,Jia Weican,et al.Conductive composites of high surface area carbon black/polypropylene[J].Acta Materiae Compositae Sinica,2012,29(2):59-64.
[6]	李侃社,王琪,陈英红.PP/石墨纳米复合材料的导电性能研究[J].高分子学报,2005(3):393-397.Li Kanshe,Wang Qi,Chen Yinghong.Electrical conductivity of PP/Graphite composites[J].Acta Polymerica Sinica,2005(3):393-397.
[7]	Sengupta R,Bhattacharya M,Bandyopadhyay S,Bhowmick A K.A review on the mechanical and electrical properties of graphite and modified graphite reinforced polymer composites[J].Progress in Polymer Science,2011,36:638-670.
[8]	程博,齐暑华,何栋,等.纳米石墨微片/聚氯乙烯复合材料的制备与性能[J].复合材料学报,2012,29 (1):8-15.Cheng Bo,Qi Shuhua,He Dong,et al.Fabrication and properties of graphite nanosheet/poly (vinyl chloride) composites[J].Acta Materiae Compositae Sinica,2012,29(1):8-15.
[9]	徐僖,王琪.力化学反应器:中国,95111258.9[P].2001-04-19.Xu Xi,Wang Qi.A pan-milling type of equipment:China,95111258.9[P].2001-04-19.
[10]	王琪,李侃社,敖宁建,等.聚合物/层状无机物纳米复合材料及其磨盘剪切制备方法:中国,02133588.5[P].2005-08-24.Wang Qi,Li Kanshe,Ao Ningjian,et al.Nanocomposites of polymer/layer-organic fillers and their preparation method through solid state shearing based on pan-milling:China,02133588.5[P].2005-08-24.
[11]	王琪,徐僖.磨盘形力化学反应器及其在高分子材料制备中的应用[J].高等学校化学学报,1997,18(7):1197-1201.Wang Qi,Xu Xi.A pan-milling type of equipment and its application in developing polymer materials[J].Chemical Journal of Chinese Universities,1997,18(7):1197-1201.
[12]	Awad W H,Beyer G,Benderly D,et al.Material properties of nanoclay PVC composites[J].Polymer,2009,50:1857-1867.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网

石墨在固相剪切碾磨力场下的片层剥离及与PVC的纳米复合

Exfoliating interlayer and nanocompositing of graphite with PVC through solid state shear compounding technology

参考文献