UltraGlow® Nitriding of Titanium Alloys

Titanium Alloys

UltraGlow® Ion Nitriding improves wear resistance and corrosion resistance of titanium alloys in certain environments.

Click here to read "Ion Nitriding of Ferrous and Titanium Alloys for Gear Applications" written by AHT's Dr. Edward Rolinski, Mikel Woods and Tekin Damirgi - published in Thermal Processing for Gear Solutions.

The increasing popularity of titanium alloys, due to their light weight and non-magnetic properties, is also enhanced by UltraGlow® Ion Nitriding. Titanium and titanium alloys have unique corrosion, non-magnetic, and strength-to-weight ratio properties, but their tribological (friction, lubrication, and wear) behavior is considered generally poor. Therefore, machined components made of titanium alloys and subjected to friction have to be surface treated to improve wear and antigalling resistance.

UltraGlow® Ion Nitriding improves wear resistance and corrosion resistance of titanium alloys in certain environments. It is performed at a temperature higher than 1255°F in pure nitrogen. Hydrogen in the atmosphere must be avoided because it forms brittle titanium hydrides in the matrix. The nitrided layer in titanium contains TiN and Ti2N nitrides as well as a diffusion zone enriched in nitrogen. The hardness of TiN is very high (2,000 HV), and its characteristic gold/yellow color imparts an appealing appearance to the treated parts. UltraGlow® Ion Nitriding applied to one-phase α and β alloys or to lower strength α + β alloys improves their frictional properties and increases bending fatigue limit.

Titanium alloys before UltraGlow® Nitriding

Titanium alloys after UltraGlow®

Read a technical paper on this subject written by AHT's Dr. Glow here:

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