Tribochemistry of a Ti Alloy Under Fretting in Air: Evidence of Titanium Nitride Formation

The present investigation focuses on the tribological transformation occurring on a Ti alloy (Ti17) under fretting in air. Several fretting wear tests were performed on a large scale punch on plane configuration (two types of planes tested: bare Ti6242 and CuNiIn-coated Ti6242) at several temperatur...

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Bibliographic Details
Published in:Tribology letters 2009-06, Vol.34 (3), p.211-222
Main Authors: Mary, C, Le Mogne, T, Beaugiraud, B, Vacher, B, Martin, J.-M, Fouvry, S
Format: Article
Language:English
Subjects:
Alloys
Chemistry and Materials Science
Corrosion and Coatings
Fretting
Materials Science
Metallurgy
Nanotechnology
Nitrogen
Organic chemistry
Original Paper
Physical Chemistry
Scars
Surfaces and Interfaces
Theoretical and Applied Mechanics
Thin Films
Titanium base alloys
Titanium nitride
Tribochemistry
Tribology
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Summary:The present investigation focuses on the tribological transformation occurring on a Ti alloy (Ti17) under fretting in air. Several fretting wear tests were performed on a large scale punch on plane configuration (two types of planes tested: bare Ti6242 and CuNiIn-coated Ti6242) at several temperatures from ambient up to 450 °C. In all the cases, two zones were identified on the scars: a lateral oxidized rim and a highly deformed region at centre. Metallurgical observations revealed similarities with Tribologically Transformed Structure (TTS), previously observed on various Ti alloys. In the framework of this article, careful analyses were conducted (EDX, DRX, XPS, HRTEM and EFTEM) in order to identify the nature and chemistry of this transformed layer. Results demonstrated the formation of a new phase, nanocrystalline, identified as TiO x N y . The high content of nitrogen found in the TTS indicated its ability to penetrate inside the contact and react with titanium. At 50 μm under the surface, a FIB preparation enabled the observation in TEM of N-rich lamellae (TiO x N y ) in the Ti (α) matrix. Two models were suggested to explain this tribochemical reaction under fretting.
ISSN:1023-8883
1573-2711
DOI:10.1007/s11249-009-9426-6