Guo Xiuhua, Song Kexing, Wang Xu, et al. Electrical Conductivity of Ceramic Particles Reinforced Copper-matrix Composites[J]. Special Casting & Nonferrous Alloys, 2013,33(11):992-995.
Guo Xiuhua, Song Kexing, Wang Xu, et al. Electrical Conductivity of Ceramic Particles Reinforced Copper-matrix Composites[J]. Special Casting & Nonferrous Alloys, 2013,33(11):992-995. DOI: 10.15980/j.tzzz.2013.11.004.
The copper-matrix composites reinforced with different nano-particles of Al2O3
SiO2
SiC and MgO in varied volumetric fraction were fabricated by internal oxidation and by powder metallurgy.The effects of preparation technology、volumetric fraction of reinforcements and thermal expansion coefficient difference between copper-matrix and reinforced particles on the electrical conductivity of the copper-matrix composites prepared were investigated.The results show that the electrical conductivity and density of Al2O3/Cu composite fabricated by internal oxidation which are increased with decreasing in Al2O3volume fraction are higher than those by powder metallurgy.The electrical conductivity of Al2O3/Cu composites is reduced with the increase of thermal expansion coefficient difference between copper-matrix and reinforced particles
which is relative with the values of calculation of the thermal stress at the copper matrix/reinforcement interface.Microstructure observation shows that the fine Al2O3particles are distributed more uniformly with alignment in the Al2O3/Cu composites fabricated by internal oxidation compared with that by powder metallurgy.