E. Ribeiro scite author profile

This paper reports on the preparation of TiN x thin films by d.c. reactive magnetron sputtering. The coating thickness ranged from 1.7 to 4.2 Am and the nitrogen content varied between 0 and 55 at.%. X-Ray diffraction showed the development of the hexagonal a-Ti phase, with strong [002] orientation for low nitrogen contents, where the N atoms fit into octahedral sites in the Ti lattice as the amount of nitrogen is increased. For nitrogen contents of 20 and 30 at.%, the q-Ti 2 N phase appears with [200] orientation. With further increasing the nitrogen content, the y-TiN phase becomes dominant. The electrical resistivity of the different compositions reproduces this phase behavior. The hardness of the samples varied from approximately 8 GPa for pure titanium up to 27 GPa for a nitrogen content of 30 at.%, followed by a slight decrease at the highest contents. A similar increase of stresses with nitrogen is observed. Structure and composition with the consequent changes in crystalline phases and the lattice distortion were found to be crucial in the evolution of the mechanical properties.

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Effects of ion bombardment on properties of d.c. sputtered superhard (Ti, Si, Al)N nanocomposite coatings

Ribeiro

Malczyk

Carvalho

et al. 2002

Surface and Coatings Technology

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Microstructure of (Ti,Si,Al)N nanocomposite coatings

Carvalho

Rebouta

Ribeiro

et al. 2004

Surface and Coatings Technology

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Microstructure, mechanical properties and cutting performance of superhard (Ti,Si,Al)N nanocomposite films grown by d.c. reactive magnetron sputtering

Carvalho

Ribeiro

Rebouta

et al. 2004

Surface and Coatings Technology

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Characterization of hard DC-sputtered Si-based TiN coatings: the effect of composition and ion bombardment

Ribeiro

Rebouta

Carvalho

et al. 2004

Surface and Coatings Technology

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E. Ribeiro

Influence of nitrogen content on the structural, mechanical and electrical properties of TiN thin films

Effects of ion bombardment on properties of d.c. sputtered superhard (Ti, Si, Al)N nanocomposite coatings

Microstructure of (Ti,Si,Al)N nanocomposite coatings

Microstructure, mechanical properties and cutting performance of superhard (Ti,Si,Al)N nanocomposite films grown by d.c. reactive magnetron sputtering

Characterization of hard DC-sputtered Si-based TiN coatings: the effect of composition and ion bombardment

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