Tribology of zrn, crn and tialn thin films deposited by reactive magnetron sputtering Report as inadecuate




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Friction and wear coefficient represent two important variables for hard coating selection in critical engineering applications such as cutting and material forming. To explain fully these variables, is necessary to understand different types of wear mechanisms that occur in coated surfaces. Zirconium nitride ZrN, chromium nitride CrN and titanium aluminum nitride TiAlN coatings produced by reactive magnetron sputtering technique were evaluated. The tribological properties- coefficient of friction COF and wear coefficient were investigated using a ball on disc tribometer and profilometry. Bias polarization voltage showed an increase in plastic deformation and third body generation failures in the ZrN surface. Nitrogen flux increasing in CrN deposition, improves tribological behavior due to cubic phase segregation, enhancing superficial properties. Increasing substrate temperature during deposition of TiAlN improves superficial properties roughness and porous density decrease, increases abrasion wear resistance and load capability of the coating.

Tipo de documento: Artículo - Article

Información adicional: Derechos de autor reservados

Palabras clave: Friction coefficient, Wear, Thin films





Source: http://www.bdigital.unal.edu.co


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TRIBOLOGY OF ZrN, CrN AND TiAlN THIN FILMS DEPOSITED BY REACTIVE MAGNETRON SPUTTERING TRIBOLOGÍA DE RECUBRIMIENTOS DE ZrN, CrN Y TiAlN OBTENIDOS POR MAGNETRON SPUTTERING REACTIVO ALEXANDER RUDEN MsC.
Universidad Tecnológica de Pereira, Pereira-Colombia.
arudenm@gmail.com JUAN M.
GONZÁLEZ MsC.
RDAI-Universidad del Valle, Cali – Colombia.
juanmgonzalezc@gmail.com JOHANS S.
RESTREPO MsC.
RDAI-Universidad del Valle, Cali – Colombia.
johansrestrepo@gmail.com MICHELL F.
CANO Ing.
RDAI-Universidad del Valle, Cali – Colombia.
michaelfkn@gmail.com FEDERICO SEQUEDA PhD.
RDAI-Universidad del Valle, Cali – Colombia.
fsequeda@yahoo.com Received for review February 1 th, 2012, accepted December 14th, 2012, final version December, 20 th, 2012 ABSTRACT: Friction and wear coefficient represent two important variables for hard coating selection in critical engineering applications such as cutting and material forming.
To explain fully these variables, is necessary to understand different types of wear mechanisms that occur in coated surfaces.
Zirconium nitride (ZrN), chromium nitride (CrN) and titanium aluminum nitride (TiAlN) coatings produced by reactive magnetron sputtering technique were evaluated.
The tribological properties- coefficient of friction (COF) and wear coefficient were investigated using a ball on disc tribometer and profilometry.
Bias polarization voltage showed an increase in plastic deformation and third body generation failures in the ZrN surface.
Nitrogen flux increasing in CrN deposition, improves tribological behavior due to cubic phase segregation, enhancing superficial properties.
Increasing substrate temperature during deposition of TiAlN improves superficial properties (roughness and porous density decrease), increases abrasion wear resistance and load capability of the coating. KEYWORDS: Friction coefficient, Wear, Thin films. RESUMEN: El coeficiente de fricción y el coeficiente de desgaste, representan dos variables importantes para la el...






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