Materials & Design (Dec 2018)
Effects of whisker surface modification on microstructures, mechanical and thermal properties of β-Si3N4 whiskers reinforced Al matrix composites
Abstract
In order to modify the interfacial bonding of β-Si3N4 whiskers (β-Si3N4w) reinforced Al matrix composites, the Ag-coated β-Si3N4w with varying Ag contents were incorporated into the Al matrix by a hot pressing method. The interfacial structure showed that the β-Si3N4w was surrounded by an amorphous Ag enrichment layer and well bonded with Al matrix with no pores and reaction products near the interface. The relative density, fracture toughness and thermal conductivities of composites were distinctly improved by the modified interface because of improved wettability, reduced thermal mismatch stress and lowered interfacial thermal resistance between Al and β-Si3N4w. When the Ag content on whiskers is 1.8 vol%, the composites shows the maximum fracture toughness (23.9 MPa·m1/2). When the Ag content is 2.7 vol%, both the maximum ductility and the maximum thermal conductivity were obtained, corresponding to an elongation at fracture and a 25 °C thermal conductivity of 15.5% and 198.6 W/m·K, respectively. However, excessive Ag content on whiskers didn't bring about promotion in mechanical properties and thermal conductivities due to the evolution of microstructure and the limitation of the relative density of composites. Keywords: Metal matrix composites, Ag coating, Interface, Mechanical properties, Thermal conductivities
