HAN Bao-zhong, MA Feng-lian, GUO Wen-min, WANG Yan-jie, JIANG Hui. Effect of magnetic field treatment on the electrical conductivity of low-density polyethylene and its composites with CNTs. New Carbon Mater., 2013, 28(1): 20-25.
Citation:
HAN Bao-zhong, MA Feng-lian, GUO Wen-min, WANG Yan-jie, JIANG Hui. Effect of magnetic field treatment on the electrical conductivity of low-density polyethylene and its composites with CNTs. New Carbon Mater., 2013, 28(1): 20-25.
HAN Bao-zhong, MA Feng-lian, GUO Wen-min, WANG Yan-jie, JIANG Hui. Effect of magnetic field treatment on the electrical conductivity of low-density polyethylene and its composites with CNTs. New Carbon Mater., 2013, 28(1): 20-25.
Citation:
HAN Bao-zhong, MA Feng-lian, GUO Wen-min, WANG Yan-jie, JIANG Hui. Effect of magnetic field treatment on the electrical conductivity of low-density polyethylene and its composites with CNTs. New Carbon Mater., 2013, 28(1): 20-25.
Key Laboratory of Engineering Dielectrics and Its Application|Ministry of Education, College of Electrical and Electronic Engineering, Harbin University of Science and Technology, Harbin, Heilongjiang 150080, China
Funds:
National Natural Science Foundation of China (51077030, 50677011); Advanced Programs for Returned Scho lars of Heilongjiang Province; Development Program for Outstanding Top-notch Innovative Personnel in Harbin University of Science and Technology.
Low-density polyethylene (LDPE) and carbon nanotube (CNT) composites (CNT/LDPE) were treated during their hot-press molding using a strong static magnetic field. The effect of the magnetic field on the direct current electrical conductivity of these materials was investigated and the mechanism for the effect was analyzed by differential scanning calorimetry, polarized light microscopy and atomic force microscopy. Results indicate that the magnetic field treatment increases the degree of crystallization and the volume resistivity of the composites. The induced magnetic moment in the CNTs caused by the magnetic field leads to an improved orientation of the CNTs in LDPE along the magnetic field direction during molding, which causes an increase in the electrical conductivity of the CNT/LDPE composites in the magnetic field direction and an increase of nonlinear conductivity characteristics. The increased amplitude of electrical conductivity of the composites increases with the increasing amount of CNTs added.
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