Abstract
Effect of scanning speed on titanium aluminide-Ti3Al produced in-situ during laser metal
deposited TiC/Ti6Al4V has been investigated and its effect on microhardness and wear resistance
properties has been studied. In this study, titanium alloy –Ti6Al4V (an important aerospace alloy)
was deposited in combination with titanium carbide-TiC using laser metal deposition process. The
laser power was maintained at 3.2 kW throughout the deposition process. The powder flow rate
and the gas flow rate were also kept at constant values of 2.88 g/min and 2 l/min respectively. The
scanning speed was varied between 0.015 and 0.105 m/s , and the influence of the scanning speed
on the titanium aluminide (Ti3Al) produced in-situ was studied and its effect on the wear resistance
behaviour was also investigated. The study revealed that as the scanning speed was initially
increased, the Ti3Al produced in-situ was found to increase and the wear resistance was found to
improve. As the scanning speed was further increased beyond 0.06 m/s, the Ti3Al produced and
the wear resistance were found to decrease.