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Abstract

Extremely thin nitrogen-containing carbon (C-N) films with thicknesses of 3, 6, and 9 nm were prepared as a protective overcoat on CoCrTa magnetic discs by complex treatment, including plasma irradiation and C-N reactive sputtering in an atmosphere of nitrogen (N₂) and nitrogen and helium (N₂ + He) gaseous mixture. Films of various thicknesses were obtained by controlling deposition time. The bonding structure and composition of the film were studied by X-ray photoelectron spectroscopy. A radio frequency power of 25 W was experimentally confirmed to be the optimum plasma irradiation power at which a ratio of magnetic loss is <5 per cent. Nanohardness and elastic modulus of the films were measured by nanoindentation. Wear and oscillation scratch tests were carried out to investigate the wear-resistance property of the films. The improved performance of C-N films is attributed to the high indentation hardness, good wear-resistant property, and corrosion resistance of the coatings due to complex treatment and He addition.

Keywords

thin film nanotribology surface characteristics

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References

Bhushan

Tribology and mechanics of magnetic storage devices, 1990 (Springer-Verlag, New York).

Miyake

Kaneko

Microtribological properties and potential applications of hard, lubricating coatings

Thin Solid Films, 1992, 212 (1-2), 256–261.

Kaneko

Oguchi

Miyamoto

Andoh

Miyake

Micro-tribology for magnetic recording, 1990, p. 31 (Society of Tribologists and Lubrication Engineers, SP-27).

Miyake

Microtribology of carbonaceous films, - approach to atomic scale zero wear

Trans. Mater. Res. Soci. Jap., 1994, 15B, 919–922.

Cutinogco

E. C.

Chung

Bhatia

S. C.

Tribological behavior of amorphous carbon nitride overcoats for magnetic thin-film rigid disks

ASME Trans. J. Tribol., 1996, 118 (7), 543–548.

Liu

A. Y.

Cohen

M. L.

Prediction of new low compressibility solid

Science, 1989, 245, 841–842.

Miyake

Watanabe

Miyazawa

Murakawa

Kaneko

Miyamoto

Micro scratch hardness increasing of ion plated carbon film by nitrogen inclusion evaluated by atomic force microscopy

Appl. Phys. Lett., 1994, 65 (9), 3206–3208.

Miyake

Watanabe

Miyazawa

Murakawa

Kaneko

Miyamoto

Modification of nanometer scale wear of nitrogen-containing carbon film due to ion implantation

Nuclear Instrum. Methods Phys. Res., 1997, B122, 643–649.

Miyake

Sekine

Shinogi

Watanabe

Microtribology of magnetic thin films with complex surface modification of nitrogen-plasma irradiation and nitrogen-containing carbon film deposition

J. Jap. Soc. Tribol., 1998, 43 (11), 979–986.

10.

Wang

Miyake

Saito

Nanoindentation and nanowear of extremely thin protective layers of C-N and B-C-N

Tribol. Int., 2005, 38 (6-7), 657–664.

11.

Miyake

Wang

Saito

Watanabe

Micro tribological properties of B-C-N extremely thin protective films deposited on plasma pretreated magnetic layers

Surf. Coat. Technol., 2005, 195, 214–226.

12.

Miyake

Wang

Mechanical properties of extremely thin B-C-N protective layer deposited with helium addition

Jpn. J. Appl Phys, 2004, 43 (6A), 3566–3571.

13.

Cutinogco

E. C.

Chung

Bhatia

C. S.

Tribological behavior of amorphous carbon nitride overcoats for magnetic thin-film rigid disks

ASME J. Tribol., 1996, 118, 543–548.

14.

Liu

A. Y.

Cohe

M. L.

Structure properties and electronic structure of low-compressibility materials: β-Si₃N₄ and hypothetical β-C₃N₄

Phys. Rev., 1990, B41, 10727–10734.

15.

White

R. L.

Bahatia

S. S.

Meek

S. W.

Friedenberg

M. C.

Mate

C. M.

Tribology of contact/near-contact recording for ultrahigh density magnetic storage, ASME Tribol., 1996, 6, 33.

16.

Sugimoto

Miyake

Optical emission studies on interaction between halogenated carbon species and noble gas during fluoropolymer sputtering

J. Appl. Phys., 1989, 65 (12), 4639–4645.

17.

Hoiffman

Gauzman

Possibility of carbon nitride formation by low-energy nitrogen implantation into graphite: in situ electron spectroscopy studies

Appl. Phys. Lett., 1994, 64 (7), 845–847.

18.

Doerner

M. F.

Gardner

D. S.

Nix

W. D.

Plastic properties of thin films on substrates as measured by submicron indentation hardness and substrate curvature techniques

J. Mater. Res., 1986, 1 (6), 845–851.

19.

Farhat

Z. N.

Ding

Northwood

D. O.

Alps

A. T.

Nanoindentation and friction studies on ti-based nanolaminated films

Surf. Coat. Technol., 1997, 89, 24–30.

20.

Bhushan

1995, Micro/nano tribology, 1997, pp. 321–322 (CRC Press, Inc., Boca Raton, Florida).

21.

Miyake

Improvement of mechanical properties of nanometer period multilayer films at interfaces of each layer

J. Vac. Sci. Technol., 2003, B21 (2), 785–789.

22.

Miyake

Watanabe

Miyazawa

Murakawa

Tribological improvement of thin carbon layers by ion beam enhanced deposition (IBED)

Diam. Films Technol., 1994, 3 (3), 167–176.

Tribological properties of extremely thin protective carbon nitride films deposited on magnetic discs by complex treatment

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