Thermochemical Surface Hardening Of Ti-6al-4v: On The Role Of Temperature And Treatment Media

The present work addresses the surface hardening and heat treatment response of Ti-6Al-4V grades G5 and G23 on thermochemical surface treatment in different temperature regimes as well as in different gaseous and plasma-based media. Grades G5 and G23 were subjected to gaseous surface hardening using various gas compositions and temperature regimes. Two different series of gaseous surface treatments were carried out:1) Carbo-oxidizing of G23 in mill-annealed condition was performed in CO gas at (high) temperatures ranging from 777 to 1027 degrees C. Treatment at 1027 degrees C resulted in the deepest case with the formation of a thin surface layer of titanium sub-oxides supported by a thick TiCxO1-x layer as the dominant phase. Post-nitriding of the carbo-oxidized specimen raised the hardness of the TiCxO1-x phase by the incorporation of nitrogen, yielding values up to similar to 2900 HV and multi-layered structures.2) Carbo-oxidizing of G5 with a bi-modal microstructure in CO/CO2 gas mixture at (intermediate) temperatures in the range 677-777 degrees C. Treatment at 777 degrees C resulted in a surface hardness of similar to 1900 HV and a similar to 60 mu m-thick diffusion zone.In addition to gaseous surface hardening, also plasma-assisted methods were applied and compared to their gaseous counterparts. Intermediate- and low-temperature plasma treatments were carried out on G23:3) Plasma (carbo-nitro)oxidizing was performed in a CO2 and N-2 gas mixture at 750 degrees C and (carbo-) oxidizing in CO2 gas at 650 degrees C.4) Plasma nitriding was conducted in a N-2/H-2 gas mixture at 750 degrees C and 850 degrees C. The widely different types of treatments applied in this work represent the diversity of the gaseous and plasma-based thermochemical methods that can be applied for surface engineering of titanium alloys.