将碳纳米管(CNTs)、苯乙烯马来酸酐无规共聚物(SMA)改性后的CNTs分别与PS/PA6不相容共混体系熔融共混,制备出PS/PA6/CNTs及PS/PA6/SMA-CNTs导电高分子复合材料,并研究其PTC效应.结果表明,对于PS/PA6/CNTs体系,CNTs选择性分布于PA6相,体系的逾渗阈值为5%(质量分数),且PTC效应不明显.对于PS/PA6/SMA-CNTs体系,由于SMA的诱导作用,使得CNTs分布于PS/PA6共混物相界面及PA6相,导致体系的逾渗阈值降低至0.112%.PS/PA6/SMA-CNTs体系具有独特的“双PTC效应”,且其形态结构影响PTC效应的形成机制.对于PA6相为分散相的体系,其PTC效应是由于PS相的玻璃化转变及PA6相的熔融造成的.对于PS相为分散相及PS/PA6形成双连续相的体系,其PTC效应是由于PA6相的熔融造成的.
参考文献
| [1] | R.Strumpler,J.Glatz-Reichenbach,Conducting polymer composites,J.Electroceram,3(4),329(1999) |
| [2] | J.C.Huang,Carbon black filled conducting polymers and polymer blends,Adv.Polym.Technol.,21(4),299(2002) |
| [3] | M.Sumita,K.Sakata,Y.Hayakawa,S.Asai,K.Miyasaka,M.Tanemura,Double percolation effect on the electrical conductivity of conductive particles filled polymer blends,Colloid.Polym.Sci.,270(2),134(1992) |
| [4] | M.Q.Zhang,Y.H.Gang,M.Zeng,H.B.Zhang,Y.H Hou,Twostep percolation in polymer blends filled with carbon black,Macromolecules,31 (19),6724(1998) |
| [5] | J.Y.Feng,C.M.Chan,Positive and negative temperature coefficient effects of an alternating copolymer of tetrafluoroethylene-ethylene containing carbon black-filled HDPE particles,Polymer,41 (12),7279(2000) |
| [6] | Y.Bin,C.Xu,D.Zhu,M.Matsuo,Electrical properties of polyethylene and carbon black particleblends prepared by gelation / crystallization from solution,Carbon,40(2),195(2002) |
| [7] | H.Yui,G.Z Wu.,H.Sano,M.Sumita,K.Kino,Morphology and electrical conductivity of injection-molded polypropylene/carbon black composites with addition of high-density polyethylene,Polymer,47(10),3599(2006) |
| [8] | Z.B.Xu,C.Zhao,A.J.Gu,Z.P.Fang,Effect of morphology on the electric conductivity of binary polymer blends filled with carbon black,J.Appl.Polym.Sci.,106(3),2008(2007) |
| [9] | YANG Bo,CHEN Xiaolang,CHEN Guangshun,GUO Shaoyun,Morphology and conductivity of conductive carbon black filled PPEAA composites,Acta Materiae Compositae Sinica,24(3),78(2007)(杨波,陈晓浪,陈光顺,郭少云,导电炭黑填充PP-EAA复合材料的形态及电性能,复合材料学报,24(3),78(2007)) |
| [10] | Z.M.Li,X.B.Xu,A.Lu,K.Z.Shen,R.Huang,M.B.Yang,Carbon black/poly(ethylene terephthalate)/polyethylene composite with electrically conductive in situ microfiber network,Carbon,42 (2),428(2004) |
| [11] | F.Gubbels,R.Jerome,P.H.Teyssie,E.Vanlathem,R.Deltour,A.Calderone,Selective localization of carbon black in immiscible polymer blends:a useful tool to design electrical conductive composites,Macromolecules,27(7),1972(1994) |
| [12] | S.X.Xu,M.Wen,J.Li,S.Y.Guo,M.Wang,Q.Du,Structure and properties of electrically conducting composites consisting of alternating layers of pure polypropylene and polypropylene with a carbon black filler,Polymer,49(22),4861(2008) |
| [13] | M.Sumita,K.Sakata,S.Asai,K.Miyasaka,H.Nakagawa,Dispersion of fillers and the electrical conductivity of polymer blends filled with carbon black,Polym.Bull.,25(2),265(1991) |
| [14] | J.Y.Feng,C.M.Chan,Carbon black-filled immiscible blends of poly(vinylidene fluoride) and high density polyethylene:Electrical properties and morphology,Polym.Engin.Sci.,38,1649(1998) |
| [15] | J.Y.Feng,C.M.Chan,Double positive temperature coefficient effects of carbon black-filled polymer blends containing two semicrystalline polymers,Polymer,41(12),4559 (2000) |
| [16] | W.H.Di,G.Zhang,Y.Peng,Z.D.Zhao,Two-step PTC effect in immiscible polymer blends filled with carbon black,J.Mater.Sci.,39,695(2004) |
| [17] | I.Mironi-harpaz,M.Narkis,Thermo-electric behavior (PTC) of carbon black-containing PVDF/UHMWPE and PVDF/XL-UHMWPE blends,Polym.Engin.Sci.,41,205(2001) |
| [18] | M.Moniruzzaman,K.I.Winey,Polymer nanocomposites containing carbon nanotubes,Macromolecules,39(16),5194(2006) |
| [19] | J.R.Yu,K.B.Lu,E.Sourty,N.Grossiord,C.E.Konine,J.C.Loos,Characterization of conductive multiwall carbon nanotube/ polystyrene composites prepared by latex technology,Carbon,45,2897(2007) |
| [20] | M.Wu,L.Shaw,Electrical and mechanical behaviors of carbon nanotube-filled polymer blends,J.Appl.Polym.Sci.,99(2),477 (2006) |
| [21] | S.Bose,A.R.Bhattacharyya,P.V.Kodgire,A.R.Kulkarni,A.S.Misra,Interactions induced dispersion and confinement of multiwalled carbon nanotubes in co-continuous polymer blends,J.Nanosci.Nanotechno.,8(4),1867(2008) |
| [22] | D.Wu,Y.Zhang,M.Zhang,W.Yu,Selective localization of multiwalled carbon nanotube in PLA/PCL blend,Biomacromolecules,10 (2),417 (2009) |
| [23] | A.C.Baudouin,J.Devaux,C.Bailly,Localization of carbon nanotubes at the interface in blends of polyamide and ethylene-acrylate copolymer,Polymer,51,1341(2010) |
| [24] | F.F.Tao,B.Nysten,A.C.Baudouin,J.M.Thomassin,D.Vuluga,C.Detrembleur,C.Bailly,Influence of nanoparticleepolymer interactions on the apparent migration behaviour of carbon nanotubes in an immiscible polymer blend,Polymer,52,4798(2011) |
| [25] | C.Lu,X.N.Hu,Y.X.He,X.H.Huang,J.C.Liu,Y.Q.Zhang,Triple percolation behavior and positive temperature coefficient effect of conductive polymer composites with especial interface morphology,Polym.Bull.,68,2071(2012) |
| [26] | LU Chang,HU Xiaoning,HE Yuxin,LIU Jichun,ZHANG Yuqing,Electrical properties of conductive polymer composites with special morphology,Chinese Journal of Materials Research,26(1),37 (2012)(陆昶,胡小宁,赫玉欣,刘继纯,张玉清,特殊形态结构导电高分子复合材料电学性能的研究,材料研究学报,26(1),37(2012)) |
| [27] | F.Gubbels,R.Jerome,E.Vanlathem,R.Deltour,S.Blacher,E.Brouers,Kinetic and thermodynamic control of the selective localization of carbon black at the interface of immiscible polymer blends,Chem.Mater,10(5),1227(1998) |
| [28] | J.Feng,C.M.Chan,J.X.Li,A method to control the dispersion of carbon black in an immiscible polymer blend,Polym.Eng.Sci.,43 (5),1058(2003) |
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