Comparison of tribological behavior of three films—TiN, TiCN and CrN—grown by physical vapor deposition

Su, Yean-Liang; Yao, Shuhuai; Leu, Z.L.; Wei, C.S.; Wu, C.T.

doi:10.1016/s0043-1648(97)00182-8

Cited by 99 publications

(37 citation statements)

References 39 publications

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“…In addition, Su et al [9] had indicate that Ti-C-N is wear resistant abrasive and in the oxidation until a temperature about 800°C. Shan et al [10] indeed demonstrated that the brush resistance of these films against a steel ball was better than that of the Ti-N film, because of its higher hardness and in the presence of carbon.…”

Section: Introductionmentioning

confidence: 99%

“…The speed of wear of Cr-N is compared with one for Ti-N, Zr-N, Ti-C-N, Al-Ti-N and remains lower within the tests of the 100Cr6 steel ball according to Rodriguez et al [32]. The Zr-N deposits are used for the cutting of non-ferrous materials [9]. Previous studies have watch as the Cr-V-N presents a coefficient of lower friction with a low volume of wear compared to that of the Cr-N and Cr-Al-N [33].…”

Section: Introductionmentioning

confidence: 99%

“…According to Su et al [9], the tribological properties of Cr-N are better in comparison with the covers of Ti-N, Ti-C-N. Indeed, this type of covers presents not only a resistance increased in the wear but also a coefficient of friction enough weak that will allow to work without lubrication [1].…”

Section: Introductionmentioning

confidence: 99%

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Mechanical and Structural Studies of Ternary Mo–Zr–N Layers Deposited on Substrate by PVD

Abboudi¹,

Chermime²,

Djebaili³

et al. 2017

Metallofiz. Noveishie Tekhnol.

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Our study of ternary Mo-Zr-N thin layers is novel with the objective of improving certain mechanical and tribological characteristics and of finding the appropriate stoichiometry to have the microstructure, which orientates to the desired properties, using the characterization techniques: SEM, XRD, EDS, XPS, WDS and similar methods as well as nanoindentation, alternative tribometry and scratch test. The morphological study of ternary Mo-Zr-N coating shows that the (111) orientation of texture is preferred essentially due to residual internal stresses. During the development of the Mo-Zr-N deposits, we have noticed that the addition of Zr results in multiphases consisting of binary ZrN, MoN and MoZrN nitrides with a prism-shaped structure. The coefficient of friction is low for Mo-N coating and low zirconium levels. The Young's modulus takes values almost very close that is indicated for values below 100 at.% of Zr. The crystalline structure does not affect the resistance capacity of the material. The introduction of zirconium particles destabilizes the compound because zirconium atomic radius (0.138 nm) is higher than that of molybdenum (0.126 nm), and the lattice is distorted that explains these residual stresses.Keywords: microstructure, morphology, texture, hardness, Young's modulus, covers, PVD. Ключевые слова: ìèêðîстðóêтóðà, îстàтî÷íûå íàïðÿжåíèÿ, тåêстóðà, тâёðäîстü, ìîäóëü Юíгà, ïîêðûтèå, íàíåсåíèå ïîêðûтèÿ îсàжäåíèåì ïàðîâ.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mechanical and Structural Studies of Ternary Mo–Zr–N Layers Deposited on Substrate by PVD

Abboudi¹,

Chermime²,

Djebaili³

et al. 2017

Metallofiz. Noveishie Tekhnol.

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“…These properties make this an ideal candidate material for various tribological applications. TiN coatings have been most commonly used in the applications of forging tools, molds, cutting tools, bearing spindles and many mechanical components to decorative items because of its resistance to wear, corrosion and temperature [8][9][10][11][12]. The tribological behaviour of TiN, AlTiN and AlCrN films were investigated that vary with substrate roughness, thickness of the film coating, hardness of the substrate, deposition method, type of wear, stoichiometry and type of heat treatment.…”

Section: Introductionmentioning

confidence: 99%

Scratch Wear Resistance of TiALN And AlCrN Coated EN-353 Steel

Azad¹,

VR²

2016

J Material Sci Eng

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TiAlN and AlCrN coatings were deposited on mild steel (EN 353 steel) by cathodic arc evaporation technique. Coefficients of friction, critical load, adhesive and cohesive properties of these coatings were studied using scratch tester. Failure mode for coatings with thickness of 2 and 4 µm were studied using scratch channels and acoustic activities as basis. Studies presented relationship between progressive and in situ emission signals. AlCrN coating exhibited higher critical load as determined by the acoustic emission signal. Additionally wear mechanisms were analyzed. Analysis of the experimental results showed that load carrying capacity of AlCrN coating is better than TiAlN coating. Scratch wear test of AlCrN coated substrates showed reduction in cracking and spalling of coated layers.

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“…Y-Z Lee et al [18] predicted the wear-life of TiN coating from indentation, scratch and repeated sliding tests. Such ceramic films are usually coated by magnetron sputtering [19][20][21], PVD process [22,23], ion beam assisted deposition [24,25] and its evaporation [26].…”

Section: Introductionmentioning

confidence: 99%

Adhesive Behaviors of the Aluminum Alloy-Based CrN and TiN Coating Films for Ocean Plant

Murakami¹,

Yahya²

2012

International Journal of Ocean System Engineering

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In the present study, TiN and CrN films were coated by arc ion plating equipment onto aluminum alloy substrate, A2024. The film thickness was about 4.65 μm. TiN and CrN films were analyzed by X-ray diffraction and energy dispersive X-ray equipments. The Young's modulus and the micro-Vickers hardness of aluminum substrate were modified by the ceramic film coatings. The difference in Young's modulus between substrate and coating film would affect on the wear resistance. The critical load, Lc, was 75.8 N for TiN and 85.5 N for CrN. It indicated from the observation of optical micrographs for TiN and CrN films that lots of cracks widely propagated toward the both sides of scratch track in the early stage of MODEⅠ. TiN film began to delaminate completely at MODEⅡ stage. The substrate was finally glittered at MODE Ⅲstage. For CrN film, a few crack can be observed at MODEⅠstage. The delamination of film was not still occurred at MODEⅡ and then was happened at MODE Ⅲ. This agrees with critical load measurement which the adhesive strength was greater for CrN film than for TiN film. Consequently, it was difficult for CrN to delaminate because the adhesive strength was excellent against Al substrate. The wear process, which the film adheres and the ball transfers, could be enhanced because of the increase in loading. The wear weight of ball was less for CrN than for TiN. This means that the wear damage of ball was greater for TiN than for CrN film. It is also obvious that it was difficult to delaminate because the CrN coating film has high toughness. The coefficient of friction was less for CrN coating film than for TiN film.

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Comparison of tribological behavior of three films—TiN, TiCN and CrN—grown by physical vapor deposition

Cited by 99 publications

References 39 publications

Mechanical and Structural Studies of Ternary Mo–Zr–N Layers Deposited on Substrate by PVD

Mechanical and Structural Studies of Ternary Mo–Zr–N Layers Deposited on Substrate by PVD

Scratch Wear Resistance of TiALN And AlCrN Coated EN-353 Steel

Adhesive Behaviors of the Aluminum Alloy-Based CrN and TiN Coating Films for Ocean Plant

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