Abstract
In this study, uncoated and copper-coated short carbon fber reinforced aluminum matrix composites were prepared by spark plasma sintering. The arrangement of the short carbon fbers was changed by hot rolling. The effect of copper-coating on microstructure evolution and properties was investigated. The results show that the copper-coating can inhibit the formation of harmful product Al_4C_3 at the interface and protect the structure of short carbon fbers from being damaged during hot rolling. Thus, the hot-rolled copper-coated composites have higher yield strength and better thermal conductivity. The interfacial product and its thickness affect the interfacial thermal resistance. For the interfacial product with low thermal conductivity, the thickness of the product is proportional to the interfacial thermal resistance. The dynamic re-crystallization mechanisms of uncoated and copper-coated composites include the continuous dynamic recrystallization mechanism, grain nucleation mechanism of the shear band, and the rotated-Gauss component promoting nucleation mechanism. The copper-coating enhances the interfacial coherence and promotes the nucleation and growth of P-oriented grains and rotated-Gauss-oriented grains by promoting the movement of shear bands.
NSTL
Elsevier