摘要
对多壁碳纳米管/高密度聚乙烯(MWNTs/HDPE)复合材料的导电性和动态流变行为进行了研究.发现复合材料的复数粘度η^*随MWNTs含量φ的增大而增大.当φ〉3wt%时,η^*发生突变,在低ω区域表现为非牛顿流体行为,出现强烈的剪切变稀现象.将其称为流变渗流现象,对应的填料含量即渗流阈值φc.在动态储能模量(G’)、损耗模量(G″)与频率(ω)关系曲线上,随φ增加出现“第二平台”,第二平台的出现表明MWNTs与MWNTs之间、MWNTs与聚合物之间存在相互缠结形成网络的结构.同时发现,在tanδ—ω曲线上的低ω区出现凹谷.认为这是由于MWNTs长链结构在低ω时伸长/收缩,MWNTs与MWNTs相互接触形成了次级网络造成的.经过不同时间热处理后的ω扫描以及动态间扫描的结果证实了这种结构的存在.研究结果表明复合材料的流变渗流阈值与电渗流阈值相一致(均在3%~5%之间),动态流变行为与导电性存在一定的相关性.
Studies on the dynamic rheological behaviors and electrical properties for muhiwalled nanotubes filled high-density polyethylene composites were carried out. An obvious shear thinning phenomenon in η^* vs ω was found for composites of MWNTs content beyond 3%. A specific viscoelastic behavior, i. e. the so-called " second plateau", appeared at low frequency region in cases of φ 〉 3 % . This phenomenon could be regarded as a rheological threshold, and could be attributed to the formation of some kind network structure due to MWNTs aggregation and the interaction between MWNTs and polymer matrix. A minimum was found in the Iow ω region for the tang δ - ω curves, which also was believed to be induced by the formation of network structure. Results of dynamic frequency sweep after heat treatment of different time length and results of dynamic time sweep approved the previous postulation. Ultimately, the rheological threshold coincided with the electrical percoloation threshold which was found for the composites containing MWNTs of 2 wt % and 3 wt %.
出处
《高分子学报》
SCIE
CAS
CSCD
北大核心
2006年第2期269-273,共5页
Acta Polymerica Sinica
基金
国家自然科学基金重点项目(项目号50133020)
国家杰出青年基金(基金号50125312)
国家自然科学基金(基金号50373037)资助项目
