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所属单位：材料科学与技术学院

发表刊物：JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS

关键字：FLUORIDE) COMPOSITE POLYMER COMPOSITES HIGH-PERMITTIVITY GRAPHENE IMPROVEMENT PERFORMANCE CONSTANT ADHESIVE NANOCOMPOSITES NANOFILLERS

摘要：In this study, novel Zn-Cu hybrid particles were prepared by a simple displacement reaction. In this displacement reaction Zn powder and CuSO4 aqueous solution were used as reactants. By adjusting the amount of Zn powder, Zn-Cu particles with different Zn:Cu weight ratio (2:1, 1:1, and 1:2) were prepared. Scanning electron microscopic images showed that these Zn-Cu particles had special flake-granule hybrid structure. Cu granules were attached onto the surface of Zn flakes. These Zn-Cu particles were used as conducting fillers in the epoxy (EP) matrix. Thermal conductive and dielectric performance of EP-matrix composites reinforced with different Zn-Cu fillers was investigated. Compared with the EP composites with pure Zn powder, the composites filled by Zn-Cu particles displayed higher thermal conductivity and dielectric constant. The Zn-Cu(1:2)/EP had a thermal conductivity of 0.5008W m(-1) K-1 and thermal diffusivity of 0.3158mm(2) s(-1). The thermal conductivity enhancement value of the 20%Zn-Cu(1:2)/EP composite reached 137.9%. The dielectric constant of the 20%Zn-Cu(1:2)/EP at 1Hz reached 34.56. In this study the thermal conductivity of the composites is mainly affected by the thermal conductivity of the fillers and the dielectric property is mainly affected by the filler shape.

ISSN号：0957-4522

是否译文：否

发表时间：2019-05-01

合写作者：Deng, Liwen

通讯作者：陈田