Structure and mechanical properties of TiAlCrSiN coatings deposited on Ti(C,N)-NbC-Ni cermets with varied Mo2C contents

TiAlCrSiN coatings were deposited on Ti(C,N)-NbC-Ni cermets with varied Mo2C contents by medium frequency reactive magnetron sputtering, and their structure, phases, mechanical and frictional properties were investigated in the present work. The results indicated that both the Mo diffusion to the co...

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Bibliographic Details
Published in:International journal of refractory metals & hard materials 2020-01, Vol.86, p.105083, Article 105083
Main Authors: Ni, Lei, Yang, Tianen, Xiong, Ji, Fei, Yuhuan
Format: Article
Language:English
Subjects:
Cermets
Coating
Coatings
Coefficient of friction
Crystal structure
Diffusion coating
Elasticity
Friction
Grain refinement
Grain size
Magnetic properties
Magnetron sputtering
Mechanical properties
Micro-hardness
Mo2C
Niobium carbide
Oxidation
Substrates
Thickening
Wear rate
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Summary:TiAlCrSiN coatings were deposited on Ti(C,N)-NbC-Ni cermets with varied Mo2C contents by medium frequency reactive magnetron sputtering, and their structure, phases, mechanical and frictional properties were investigated in the present work. The results indicated that both the Mo diffusion to the coating and the Al diffusion to the substrate resulted in the decreased lattice parameter of TiAlCrSiN phase in the coating. When increasing Mo2C contents in the substrate, the columnar crystal grains in the coating were refined, whereas the adhesion of the coating to the substrate was degraded as a result of the coating thickening and the inner stress in the coating. Apart from being influenced by grain size, the coating's hardness was also linked to the crystal plane orientation, and it declined with a decrease of relative intensity ratio of I(111)/I(200) in the TiAlCrSiN coating. The elasticity modulus of the coating decreased slightly due to the grain refinement in the coating. The average friction coefficient of TiAlCrSiN coating was reduced by oxidation of the Mo diffused from the substrate, while the friction coefficient was not the predominant indicator influencing wear rate of the coated Ti(C,N)-NbC-Ni cermet. •Reverse Mo and Al diffusion result in the decreased lattice parameter of coating.•TiAlCrSiN coating's grain is refined by increasing Mo2C contents in the substrate.•TiAlCrSiN coating's micro-hardness declines with a decrease of I(111)/I(200).•Elasticity modulus decreases slightly due to the grain refinement in the coating.•The average friction coefficient of coating is reduced due to Mo oxidation.
ISSN:0263-4368
DOI:10.1016/j.ijrmhm.2019.105083