Electrodeposition of Ni-W amorphous alloy and Ni-W-SiC composite deposits

Ni-W alloys and their composite deposits are electroplated on the metals wh en an appropriate complex agent is selected on the base of the theories of electrochemistry and complex chemistry, and the principle of induced codepo sition. Effects of the bath composition, pH value, temperature and current density on the electrode position of Ni-W alloys and their composite deposi ts have been investigated, and the effect of heat treatment temperature on the hardness, structure and cohesive force of the amorphous Ni-W alloys and their composite deposits are also discussed. Results showed that the alloy s containing more than 44 wt pet W content and the composite deposits conta ining 7.8 wt pet SiC content could be obtained by making use of the appropr iate bath composition and plating conditions. Alloys and their composite de posits with over 44 wt pet W content show amorphous structure. The hardness of amorphous Ni-W alloys and their composite deposits increases obviously when heated, and can reach to 1350 HV and 1520 HV respectively for 46 wt pe t W content. The cohesion on Cu, carbon steel and stainless steel is very g ood.