Corrosion behavior of extremely hard Al-Cu/Mg-SiC light metal alloy composites

In this study, hot-pressing technique was used to produce Al-5wt.% Cu-20 vol.% SiC and Al-5wt.% Mg-20 vol.% SiC particulate metal matrix composites. The powders were ball milled and the powder mixtures were hot pressed uniaxially under a pressure of 550 MPa at a temperature of 450 °C in vacuum atmosphere for different holding times of 30, 60 and 120 min. A common observation was that the density of Al composites decreased slightly with increasing hot press sintering time. The Al-5wt.% Cu-20 vol.% SiC samples exhibited maximum density of ∼95.7% ρth (theoretical density) and Al-5wt.% Mg-20 vol.% SiC composite was measured with maximum density of ∼97.8 ρth after hot pressing for 30 min. The XRD and SEM characterization confirms presence of Al, SiC and CuAl2 phases for Al-Cu-SiC. Whereas the microstructure of Al-Mg-SiC composite consists of Al0.95Mg0.05 solid solution phase along with SiC phase. Among all the compositions, a maximum hardness of 3.2 GPa was noted for the Al composites, which were hot pressed at 60 min. A comparison with the existing literature reveals the presently developed Al alloy composites exhibited superior hardness. Corrosion tests were carried out using potentiodynamic polarization and electrochemical impedance spectroscopy to study the corrosion behavior of both these hard composites in marine environment (3.5wt.% NaCl) at room temperature. The corrosion rate of the samples varied between 1.8 and 2.7 mpy (mils per year), parti...
Source: Journal of Alloys and Compounds - Category: Chemistry Source Type: research