Surface modification of aluminum by electrical discharge alloying

Abstract Surface modification of aluminum was carried out using a new method named electrical discharge alloying. Deposition of titanium contained in electrodes and carbon decomposed from hydrocarbon working fluid occurs on aluminum substrates. With an electrode of a Ti-36mass%Al premixed green compact, in situ composite layers mainly consisting of TiC and TiAl are formed. The process makes it possible not only to coat the in situ composite layers with a thickness of 100 μm within a few minutes but also to obtain different TiC volume ratios by changing the process parameters. The formation of fine dendritic TiC precipitates can be considered to be a result of rapid solidification during the process. The volume ratio of TiC decreases with increasing distance from the surface, which means that the modified layers are composed of gradient constituents. The hardness close to the surface can be controlled to a value of 3.5–10.5 GPa changing the process parameters, such as the pulse width and working time.