The Resistivity Response of an Anisotropically Conductive Polymer Composite with in-situ Conductive Microfibrils During Cooling

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The Resistivity Response of an Anisotropically Conductive Polymer Composite with in-situ Conductive Microfibrils During Cooling

机译：原位导电微纤维各向异性导电聚合物复合材料在冷却过程中的电阻率响应

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The resistivity response of anisotropically conductive polymer composite (ACPC) with carbon black (CB) particles selectively localizing at the surfaces of aligned polyethylene terephthalate (PET) microfibrils was investigated during cooling from 180Â°C in the parallel and perpendicular directions. The ACPC exhibited a cooling positive temperature coefficient (PTC) around the crystallization temperature of polyethylene (PE) matrix. With the increase of CB loading, the cooling PTC effect decreased gradually. When the ACPC experienced isothermal annealing, the aligned microfibrils disordered to form more conductive pathways. The increase of annealing time caused the gradual attenuation of the cooling PTC effect in both directions.

机译：研究了从180°C在平行和垂直方向上冷却期间，各向异性导电聚合物复合材料（ACPC）的电阻率响应，其中炭黑（CB）颗粒选择性定位在对准的聚对苯二甲酸乙二醇酯（PET）微纤维表面。 ACPC在聚乙烯（PE）基质的结晶温度附近显示出冷却正温度系数（PTC）。随着炭黑负荷的增加，冷却PTC效应逐渐降低。当ACPC经历等温退火时，排列的微纤维无序形成更多的传导途径。退火时间的增加导致冷却PTC效应在两个方向上逐渐衰减。

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《Polymer-Plastics Technology and Engineering》 |2011年第15期|p.1511-1514|共4页
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College of Polymer Science and Engineering, State Key Laboratory of Polymer Materials Engineering, Sichuan University, Chengdu, Sichuan, People's Republic of China;

Analytical and Testing Center, Sichuan University, Chengdu, Sichuan, People's Republic of;

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The Resistivity Response of an Anisotropically Conductive Polymer Composite with in-situ Conductive Microfibrils During Cooling

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