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Journal of Materials Engineering and Performance

Erschienen in:

20.06.2017

Corrosion and Wear Behaviors of Cr-Doped Diamond-Like Carbon Coatings

verfasst von: S. Viswanathan, L. Mohan, Parthasarathi Bera, V. Praveen Kumar, Harish C. Barshilia, C. Anandan

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 8/2017

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Abstract

A combination of plasma-enhanced chemical vapor deposition and magnetron sputtering techniques has been employed to deposit chromium-doped diamond-like carbon (DLC) coatings on stainless steel, silicon and glass substrates. The concentrations of Cr in the coatings are varied by changing the parameters of the bipolar pulsed power supply and the argon/acetylene gas composition. The coatings have been studied for composition, morphology, surface nature, nanohardness, corrosion resistance and wear resistance properties. The changes in I _D/I _G ratio with Cr concentrations have been obtained from Raman spectroscopy studies. Ratio decreases with an increase in Cr concentration, and it has been found to increase at higher Cr concentration, indicating the disorder in the coating. Carbide is formed in Cr-doped DLC coatings as observed from XPS studies. There is a decrease in sp ³/sp ² ratios with an increase in Cr concentration, and it increases again at higher Cr concentration. Nanohardness studies show no clear dependence of hardness on Cr concentration. DLC coatings with lower Cr contents have demonstrated better corrosion resistance with better passive behavior in 3.5% NaCl solution, and corrosion potential is observed to move toward nobler (more positive) values. A low coefficient of friction (0.15) at different loads is observed from reciprocating wear studies. Lower wear volume is found at all loads on the Cr-doped DLC coatings. Wear mechanism changes from abrasive wear on the substrate to adhesive wear on the coating.

Vorheriger Artikel Assessment of Fatigue Resistance of Aluminide Layers on MAR 247 Nickel Super Alloy with Full-Field Optical Strain Measurements

Nächster Artikel Fatigue Life Prediction of Metallic Materials Based on the Combined Nonlinear Ultrasonic Parameter

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J. Fontaine, C. Donnet, and A. Erdemir, Fundamentals of the Tribology of DLC Coatings, Tribology of Diamond-Like Carbon Films: Fundamentals and Applications, C. Donnet and A. Erdemir, Ed., Springer, New York, 2008, p 139–154CrossRef

J. Robertson, Diamond Like Amorphous Carbon, Mater. Sci. Eng. R, 2002, 37, p 129–281CrossRef

A. Erdemir, J. Vižintin, M. Kalin, K. Dohda, and S. Jahanmir, Ed., Tribology of Mechanical Systems: A Guide to Present and Future Technologies, ASME Press, New York, 2004, p 139CrossRef

A. Grill, Diamond Like Carbon: State of The Art, Diamond Relat. Mater., 1999, 8, p 428–434CrossRef

C. Donnet and A. Grill, Friction Control of Diamond Like Carbon Coatings, Surf. Coat. Technol., 1997, 94, p 456–462CrossRef

S.C.H. Kwok, P.C.T. Ha, D.R. McKenzie, M.M.M. Bilek, and P.K. Chu, Biocompatibility of Calcium and Phosphorus Doped Diamond-Like Carbon Thin Films Synthesized by Plasma Immersion Ion Implantation and Deposition, Diamond Relat. Mater., 2006, 15, p 893–897CrossRef

X.Z. Ding, B.K. Tay, S.P. Lau, P. Zhang, and X.T. Zeng, Structural and Mechanical Properties of Ti-Containing Diamond-Like Carbon Films Deposited by Filtered Cathodic Vacuum Arc, Thin Solid Films, 2002, 408, p 183–187CrossRef

K.I. Schiffmann, Phenomena in Microwear Experiments on Metal-Free and Metal-Containing Diamond-Like Carbon Coatings: Friction Wear Fatigue and Plastic Deformation, Surf. Coat. Technol., 2004, 177, p 453–458CrossRef

K. Bewilogua, R. Wittorf, H. Thomsen, and M. Weber, DLC Based Coatings Prepared by Reactive DC Magnetron Sputtering, Thin Solid Films, 2004, 447, p 142–147CrossRef

10.

G. Gassner, P.H. Mayrhofer, J. Patscheider, and C. Mitterer, Thermal Stability of Nanocomposite CrC/a-C: H Thin Films, Thin Solid Films, 2007, 515, p 5411–5417CrossRef

11.

S. Zhang, X.L. Bui, J. Jiang, and X. Li, Microstructure and Tribological Properties of Magnetron Sputtered nc-TiC/aC Nanocomposite, Surf. Coat. Technol., 2005, 198, p 206–211CrossRef

12.

A.Y. Wang, K.R. Lee, J.P. Ahn, and J.H. Han, Structure and Mechanical Properties of W Incorporated Diamond-Like Carbon Films Prepared by a Hybrid Ion Beam Deposition Technique, Carbon, 2006, 44, p 1826–1832CrossRef

13.

I. Gerhards, C. Ronning, U. Vetter, H. Hofsäss, H. Gibhardt, G. Eckold, Q. Li, S.T. Lee, Y.L. Huang, and M. Seibt, Ion Beam Synthesis of Amorphous Carbon Thin Films Containing Metallic Nanoclusters, Surf. Coat. Technol., 2002, 158, p 114–119CrossRef

14.

S. Dub, Y. Pauleau, and F. Thièry, Mechanical Properties of Nanostructured Copper-Hydrogenated Amorphous Carbon Composite Films Studied by Nanoindentation, Surf. Coat. Technol., 2004, 180, p 551–555CrossRef

15.

V. Singh, V. Palshin, R.C. Tittsworth, and E.I. Meletis, Structure of Composite Cr-Containing Diamond-Like Carbon Thin Films, Carbon, 2006, 44, p 1280–1286CrossRef

16.

C. Strondl, N.M. Carvalho, J.T.H.M. De Hosson, and G.J. Van der Kolk, Investigation on the Formation of Tungsten Carbide in Tungsten-Containing Diamond Like Carbon Coatings, Surf. Coat. Technol., 2003, 162, p 288–293CrossRef

17.

B. Feng, D.M. Cao, W.J. Meng, J. Xu, R.C. Tittsworth, L.E. Rehn, P.M. Baldo, and G.L. Doll, Characterization of Microstructure and Mechanical Behavior of Sputter Deposited Ti-Containing Amorphous Carbon Coatings, Surf. Coat. Technol., 2001, 148, p 153–162CrossRef

18.

W. Dai, H. Zheng, G.S. Wu, and A.Y. Wang, Effect of Bias Voltage on Growth Property of Cr-DLC Film Prepared by Linear Ion Beam Deposition Technique, Vacuum, 2010, 85, p 231–235CrossRef

19.

W. Dai, G. Wu, and A.Y. Wang, Preparation Characterization and Properties of Cr-Incorporated DLC Films on Magnesium Alloy, Diamond Relat. Mater., 2010, 19, p 1307–1315CrossRef

20.

W. Dai, G. Wu, and A. Wang, Structure and Elastic Recovery of Cr-C: H Films Deposited by a Reactive Magnetron Sputtering Technique, Appl. Surf. Sci., 2010, 257, p 244–248CrossRef

21.

W. Dai, P. Ke, and A. Wang, Microstructure and Property Evolution of Cr-DLC Films with Different Cr Content Deposited by a Hybrid Beam Technique, Vacuum, 2011, 85, p 792–797CrossRef

22.

W. Dai and A. Wang, Synthesis, Characterization and Properties of the DLC Films with Low Cr Concentration Doping by a Hybrid Linear Ion Beam System, Surf. Coat. Technol., 2011, 205, p 2882–2886CrossRef

23.

M.C. Chiu, W.P. Hsieh, W.Y. Ho, D.Y. Wang, and S.F. Shieu, Thermal Stability of Cr-Doped Diamond-Like Carbon Films Synthesized by Cathodic Arc Evaporation, Thin Solid Films, 2004, 476, p 258–263CrossRef

24.

Y. Xiang, W. Cheng-biao, L. Yang, Y. De-yang, and F. Zhi-qiang, Cr-Doped DLC Films in Three Mid-Frequency Dual-Magnetron Power Modes, Surf. Coat. Technol., 2006, 200, p 6765–6769CrossRef

25.

J. Sun, Z.Q. Fu, W. Zhang, C.B. Wang, W. Yue, S.S. Lin, and M.J. Dai, Friction and Wear of Cr-Doped DLC Films under Different Lubrication Conditions, Vacuum, 2013, 94, p 1–5CrossRef

26.

J.A. Colón Santana, R. Skomski, V. Singh, V. Palshin, A. Petukhov, Ya.B. Losovyj, A. Sokolov, P.A. Dowben, and I. Ketsman, Magnetism of Cr-Doped Diamond-Like Carbon, J. Appl. Phys., 2009, 105, art. no. 07A930. doi:10.1063/1.3072828

27.

D. Wang and Y.Y. Chang, Structural and Electrical Properties of Cr Doped a-C: H Films Synthesized by a Cathodic-Arc Activated Deposition Process, Surf. Coat. Technol., 2006, 200, p 3170–3174CrossRef

28.

F. Zhang, S. Krishnaswamy, D. Fei, D.A. Rebinsky, and B. Feng, Ultrasonic Characterization of Mechanical Properties of Cr and W-Doped Diamond-Like Carbon Hard Coatings, Thin Solid Films, 2006, 503, p 250–258CrossRef

29.

X. Fan, E.C. Dickey, S.J. Pennycook, and M.K. Sunkara, Z-Contrast Imaging and Electron Energy-Loss Spectroscopy Analysis of Chromium-Doped Diamond-Like Carbon Films, Appl. Phys. Lett., 1999, 75, p 2740–2742CrossRef

30.

H. Renondeau, R.I. Taylor, G.C. Smith, and A.A. Torrance, Friction and Wear Performance of Diamond-Like Carbon and Cr-Doped Diamond-Like Carbon Coatings in Contact with Steel Surfaces, J. Eng. Tribol., 2008, 222, p 231–240

31.

C.W. Zou, H.J. Wang, L. Feng, and S.W. Xue, Effects of Cr Concentrations on the Microstructure, Hardness, and Temperature-Dependent Tribological Properties of Cr-DLC Coatings, Appl. Surf. Sci., 2013, 286, p 137–141CrossRef

32.

Y. Zhuang, X. Jiang, A.V. Rogachev, D.G. Piliptsou, B. Ye, G. Liu, T. Zhou, and A.S. Rudenkov, Influences of Pulse Frequency on the Structure and Anti-corrosion Properties of the a-C: Cr Films, Appl. Surf. Sci., 2015, 351, p 1197–1203CrossRef

33.

S. Gayathri, N. Kumar, R. Krishnan, T.R. Ravindran, S. Dash, A.K. Tyagi, and M. Sridharan, Influence of Cr Content on the Micro-structural and Tribological Properties of PLD Grown Nanocomposite DLC-Cr Thin Films, Mater. Chem. Phys., 2015, 167, p 194–200CrossRef

34.

M. Jelinek, T. Kocourek, J. Zemek, J. Mikšovský, Š. Kubinová, J. Remsa, J. Kopeček, and K. Jurek, Chromium-Doped DLC for Implants Prepared by Laser-magnetron Deposition, Mater. Sci. Eng. C, 2015, 46, p 381–386CrossRef

35.

W. Yang, Y. Guo, D. Xu, J. Li, P. Wang, P. Ke, and A. Wang, Microstructure and Properties of (Cr:N)-DLC Films Deposited by a Hybrid Beam Technique, Surf. Coat. Technol., 2015, 261, p 398–403CrossRef

36.

C.-H. Liang, C.-F. Huang, and H.-Y. Tsai, The Influence of Substrate Bias Voltages on Structure, Mechanical Properties and Anti-corrosion Performance of Cr Doped Diamond-Like Carbon Films Deposited by Steered Cathodic Arc Evaporation, Thin Solid Films, 2015, 597, p 88–96CrossRef

37.

Z. Wu, X. Tian, G. Gui, C. Gong, S. Yang, and P.K. Chu, Microstructure and Surface Properties of Chromium-Doped Diamond-Like Carbon Thin Films Fabricated by High Power Pulsed Magnetron Sputtering, Appl. Surf. Sci., 2013, 276, p 31–36CrossRef

38.

M. Stern and A.L. Geary, Electrochemical Polarization I. A Theoretical Analysis of the Shape of Polarization Curves, J. Electrochem. Soc., 1957, 104, p 56–63CrossRef

39.

Standard Test Method for Linearly Reciprocating Ball-on-Flat Sliding Wear, ASTM G133-02

40.

P. Kumar, P.D. Babu, L. Mohan, C. Anandan, and V.K.W. Grips, Wear and Corrosion Behavior of Zr-Doped DLC on Ti-13Zr-13Nb Biomedical Alloy, J. Mater. Eng. Perform., 2013, 22, p 283–293CrossRef

41.

L. Mohan, P.D. Babu, P. Kumar, and C. Anandan, Influence of Zirconium Doping on the Growth of Apatite and Corrosion Behavior of DLC-Coated Titanium Alloy Ti-13Nb-13Zr, Surf. Interface Anal., 2013, 45, p 1785–1791CrossRef

42.

C. Anandan, L. Mohan, and P.D. Babu, Electrochemical Studies and Growth of Apatite on Molybdenum Doped DLC Coatings on Titanium Alloy Β-21S, Appl. Surf. Sci., 2014, 296, p 86–94CrossRef

43.

F.C. Tai, S.C. Lee, J. Chen, C. Wei, and S.H. Chang, Multipeak Fitting Analysis of Raman Spectra on DLCH Film, J. Raman Spectrosc., 2009, 40, p 1055–1059CrossRef

44.

S. Gayathri, N. Kumar, R. Krishnan, T.R. Ravindran, S. Amirthapandian, S. Dash, A.K. Tyagi, and M. Sridharan, Influence of Transition Metal Doping on the Tribological Properties of Pulsed Laser Deposited DLC Films, Ceram. Int., 2015, 41, p 1797–1805CrossRef

45.

A.C. Ferrari and J. Robertson, Resonant Raman Spectroscopy of Disordered Amorphous and Diamond Like Carbon, Phys. Rev. B, 2001, 64, art. no. 075414. doi:10.1103/PhysRevB.64.075414

46.

G. Irmer and A. Dorner-Reisel, Micro-Raman Studies on DLC Coatings, Adv. Eng. Mater., 2005, 7, p 694–705CrossRef

47.

A.P. Piedade, J. Nunes, and M.T. Vieira, Thin Films with Chemically Graded Functionality Based on Fluorine Polymers and Stainless Steel, Acta Biomater., 2008, 4, p 1073–1080CrossRef

48.

K. Nygren, M. Samuelsson, A. Flink, H. Ljungcrantz, Å.K. Rudolphi, and U. Jansson, Growth and Characterization of Chromium Carbide Films Deposited by High Rate Reactive Magnetron Sputtering for Electrical Contact Applications, Surf. Coat. Technol., 2014, 260, p 326–334CrossRef

49.

S. Santra, P.K. Hota, R. Bhattarcharyya, P. Bera, P. Ghosh, and S.K. Mandal, Palladium Nanoparticles on Graphite Oxide: A Recyclable Catalyst for the Synthesis of Biaryl Cores, ACS Catal., 2013, 3, p 2776–2789CrossRef

50.

R. Younesi, P. Norby, and T. Vegge, A New Look at the Stability of Dimethyl Sulfoxide and Acetonitrile in Li-O₂ Batteries, ECS Electrochem. Lett., 2014, 3, p A15–A18CrossRef

51.

Z. Zhao, H. Zheng, Y. Wang, S. Mao, J. Niu, Y. Chen, and M. Shang, Synthesis of Chromium Carbide (Cr₃C₂) Nanopowders by the Carbonization of the Precursor, J. Refract. Met. Hard Mater., 2011, 29, p 614–617CrossRef

52.

J.F. Moulder, W.F. Stickle, P.E. Sobol, and K.D. Bomben, Handbook of X-Ray Photoelectron Spectroscopy, J. Chastain, Ed., Perkin-Elmer, Eden Prairie, 1992,

53.

R. Teghil, A. Santagata, A. De Bonis, A. Galasso, and P. Villani, Chromium Carbide Thin Films Deposited by Ultra-Short Pulse Laser Deposition, Appl. Surf. Sci., 2009, 255, p 7729–7733CrossRef

54.

L. Ji, H. Li, F. Zhao, J. Chen, and H. Zhou, Microstructure and Mechanical Properties of Mo/DLC Nanocomposite Films, Diamond Relat. Mater., 2008, 17, p 1949–1954CrossRef

55.

R. Paul, A. Dey, A.K. Mukherjee, S.N. Sarangi, and A.K. Pal, Effect of Nanocrystalline Silver Impregnation on Mechanical Properties of Diamond-Like-Carbon Films by Nanoindentation, Indian J. Pure Appl. Phys., 2012, 50, p 252–259

56.

W.H. Kao, Optimized aC Coatings by Doping with Zirconium for Tribological Properties and Machining Performance, Diamond Relat. Mater., 2007, 16, p 1896–1904CrossRef

57.

Y.F. Zheng, X.L. Liu, and H.F. Zhang, Properties of Zr-ZrC-ZrC/DLC Gradient Films on TiNi Alloy by The PIIID Technique Combined with PECVD, Surf. Coat. Technol., 2008, 202, p 3011–3016CrossRef

58.

J.C. Sánchez-López and A. Fernández, Doping and Alloying Effects on DLC Coatings, Tribology of Diamond-Like Carbon Films: Fundamentals and Applications, C. Donnet and A. Erdemir, Ed., Springer, New York, 2008, p 311–338CrossRef

59.

D. Caschera, F. Federici, S. Kaciulis, L. Pandolfi, A. Cusma, and G. Padeletti, Deposition of Ti-Containing Diamond-Like Carbon (DLC) Films by PECVD Technique, Mater. Sci. Eng., C, 2007, 27, p 1328–1330CrossRef

Titel: Corrosion and Wear Behaviors of Cr-Doped Diamond-Like Carbon Coatings
verfasst von: S. Viswanathan
L. Mohan
Parthasarathi Bera
V. Praveen Kumar
Harish C. Barshilia
C. Anandan
Publikationsdatum: 20.06.2017
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 8/2017
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-017-2783-7

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