Influence of Particle Content and Porosity on the Dry Sliding Wear Behaviour of Cast In-Situ Al(Ti)-Al2O3(TiO2) Composites

Abstract: Cast in-situ Al(Ti)-Al2O3(TiO2) composites, synthesized by dispersing titanium dioxide (TiO2) particles in molten aluminium, which reduces these particles, partially or fully, forming alumina (Al2O3) and releasing titanium to the matrix alloy, may provide materials for lightweight components in automobiles and aircrafts. Wear tests, conducted at different normal loads and at constant sliding velocity of 1.05 m/s using a pin-on-disc wear testing m/c, under dry sliding conditions, indicate that the cumulative vo… Show more

“…Different loads of 9.8, 19.6, 29.4 and 39.2 N have been applied on the pin, normal to the sliding contact, during wear test of each in-situ composite. The track radius has been kept constant at 50 mm and the linear speed has been maintained at 1.05 m/s according to procedures detailed elsewhere [10,11,12].…”

A Comparative Study of Microstructure, Mechanical and Tribology Properties of Cast in-situ Particulate: Al(Mg,Mn)-Al2O3(MnO2) and Al(Mg,Ti)-Al2O3(TiO2) Composites

“…Different loads of 9.8, 19.6, 29.4 and 39.2 N have been applied on the pin, normal to the sliding contact, during wear test of each in-situ composite. The track radius has been kept constant at 50 mm and the linear speed has been maintained at 1.05 m/s according to procedures detailed elsewhere [10,11,12].…”

A Comparative Study of Microstructure, Mechanical and Tribology Properties of Cast in-situ Particulate: Al(Mg,Mn)-Al2O3(MnO2) and Al(Mg,Ti)-Al2O3(TiO2) Composites