Performance evaluation of TiN duplex coated alloy tool steel sliding against an aluminum alloy under a transfer condition

Abstract

The tribological evaluation of the titanium nitride (TiN) duplex coated alloy tool steel has been studied as a potential surface modification for tools used for plasticity processes of aluminum alloy. Dry sliding experiments on duplex treated alloy tool steel blocks against an aluminum alloy ring were conducted under an oxidation-limited condition simulating a tool surface where the transfer of aluminum alloy occurs. In the sliding experiments a transfer of aluminum alloy was predominant and little wear of the TiN-coating film took place. After sliding for a certain distance, however, shell-like chipping (large-chipping) appeared on the TiN film surface under the transferred layers, and which grew in the downstream direction to cause a macroscopic spalling of the film. The film life defined by the occurrence of large-chipping of size 50–100μm, was markedly prolonged by tempering the nitrided substrate. Possible mechanisms of the life improvement are discussed.