Abstract
At high temperatures under oxidizing environments, titanium-based alloys form an oxide scale and dissolve large amount of oxygen in their metallic matrix. Oxygen dissolution is a cause of embrittlement. Nitrogen is a secondary oxidant, which also dissolves in titanium during oxidation in air. Oxidation experiments of Ti-6Al-2Sn-4Zr-2Mo-0.1Si titanium-based alloy at 650 °C for 1000 h in synthetic air (20%O2- 80%N2) and in a mixture of 20%O2-80%Ar, showed that nitrogen reduces both oxide scale growth and oxygen dissolution. Atom probe tomography revealed that nitrogen effect is due to the formation of an interfacial layer of nitride Ti2N but also to the formation of a nitrogen rich a-Ti-based solid solution, which both act as difiusion barriers for oxygen because of their low oxygen solubility.
Highlights
Introduc onThe use of tanium-based alloys has been in full expansion in aircra industry due to their high specific strength at low or moderate temperatures (
At high temperatures under oxidizing environments, tanium-based alloys form an oxide scale and dissolve large amount of oxygen in their metallic matrix
Atom probe tomography revealed that nitrogen effect is due to the forma on of an interfacial layer of nitride Ti2N and to the forma on of a nitrogen rich a-Ti-based solid solu on, which both act as diffusion barriers for oxygen because of their low oxygen solubility
Summary
The use of tanium-based alloys has been in full expansion in aircra industry due to their high specific strength at low or moderate temperatures (
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