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A Novel Method for Preparing Polyurethane Based Conductive Composites with Low Percolation Threshold 被引量:2

A Novel Method for Preparing Polyurethane Based Conductive Composites with Low Percolation Threshold
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摘要 A novel method for preparing conductive carbon black fllled polymer composites with low percolation threshold from polyurethane emulsion are reported in this paper. The experimental results indicate that with a rise in carbon black concentration the insulator-conductor transition in the emulsion blended composites occurs at 0.8-1.4vol%. In contrast, the solution blended composites exhibit drastic increase in conductivity at conducting filler fraction as high as 12.3-13.3vol%. It is demonstrated that the composites microstructure rather than chemical structure of the matrix polymer predominantly determines the electrical conduction performance of the composites. A novel method for preparing conductive carbon black fllled polymer composites with low percolation threshold from polyurethane emulsion are reported in this paper. The experimental results indicate that with a rise in carbon black concentration the insulator-conductor transition in the emulsion blended composites occurs at 0.8-1.4vol%. In contrast, the solution blended composites exhibit drastic increase in conductivity at conducting filler fraction as high as 12.3-13.3vol%. It is demonstrated that the composites microstructure rather than chemical structure of the matrix polymer predominantly determines the electrical conduction performance of the composites.
作者 JiWenHU MingWeiLI MingQiuZHANG: GenShuiCHENG MinZhiRONG
机构地区 GuangzhouInstituteofChemistry KeyLaboratoryforPolymericCompositeandFunctionalMaterialsofMinistryofEducation
出处 《Chinese Chemical Letters》 SCIE CAS CSCD 2004年第8期1001-1004,共4页 中国化学快报(英文版)
关键词 PERCOLATION water-borne polyurethane conductive polymer composites carbon black. Percolation, water-borne polyurethane, conductive polymer composites, carbon black.
分类号 O633.4 [理学—高分子化学] O631.23 [理学—高分子化学]
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参考文献11

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同被引文献24

  • 1Hermant M C, Klumperman B, Kyrylyuk A V. Lowering the percolation threshold of single-walled carbon nanotubes using polystyrene/poly(3,4-ethylene- dioxythiophene) : poly ( styrene sulfonate) blends [ J ]. Soft Matter ,2009,5 (4) :878 - 885.
  • 2Ehsan D, Seyed R G, Payam M A. Effect of porosity on response behavior of carbon black-PMMA conductive composite sensors toward organic vapors[J].Olfaetion and electronic nose:proceedings of the 13th International Symposium on Olfaction and Electronic Nose, 2009,1137 : 361 - 364.
  • 3Petrovi Z S, Martinovi B, Divjakovi. Polypropylenecarbon black interaction in conductive composites[J]. Journal of Applied Polymer Science, 2003,49 (9) : 1659 - 1669.
  • 4Kun Dai, Xu Xiangbin, Li Zhongming. Electrically conductive carbon black (CB)filled in situ microfibrillar poly( ethylene terephthalate) ( PET)/polyethylene(PE) composite with a selective CB distribution [J]. Polymer,2007,48 ( 3 ) : 849 - 859.
  • 5Narkis M. Resistivity behavior of filled electrically conductive crosslinked polyethylene[J]. Journal of Applied Polymer Science ,2004,29 : 1639 - 1652.
  • 6Zhang Qinghua, Xiong Hui, Yan Weixia. Electrical conductivity and theological behavior of multiphase polymer composites containing conducting carbon black[J]. Polymer Engineering and Science, 2008, 48( 11 ) :2090 -2097.
  • 7A1-Saleh M H, Sundararaj U. An innovative method to reduce percolation threshold of carbon black filled immiscible polymer blends [ J ]. Composites Part A: Applied Science and Manufacturing, 2008,39 ( 2 ) : 284 - 293.
  • 8Li Bo, Xu Xiangbin, Li Zhongming. Manipulating the conductivity of carbon-black-filled immiscible polymer composites by insulating nanoparticles [J].Journal of Applied Polymer Science,2008,110( 5 ) :3073 - 3079.
  • 9Flandin L,Chang A,Nazarenko D. Effect of strain on the properties of an ethylene-octene elastomer with conductive carbon fillers[J].Journal of Applied Polymer Science ,2000,76:894 - 905.
  • 10Choi S S, Nah C, Lee S G. Effect of filler-filler interaction on rheological behaviour of natural rubber compounds filled with both carbon black and silica [ J ]. Polym. Int. ,2003,52 ( 1 ) :23 -26.

引证文献2

二级引证文献11

Chinese Chemical Letters
2004年 第8期

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