Frictional properties of fluorinated diamond-like carbon films prepared by radio frequency reactive magnetron sputtering

Wang Pei-Jun; Jiang Mei-Fu; Du Ji-Long; Dai Yong-Feng

doi:10.7498/aps.59.8920

Abstract

The fluorinated diamond-like carbon (F-DLC) films are prepared by radio frequency reactive magnetron sputtering with different flow ratios of CHF3 and Ar as a source gas and pure graphite as a target. Surface morphology, hardness, bonding configuration and tribological properties are investigated by atomic force microscope, nanoindenter, Raman spectra, Fourier transform infrared (FTIR) spectra and a ball-on-disk test rig, respectively. The results show that the F-DLC films are distributed compactly and homogeneously and exhibit good friction-reducing behaviors. The minimum of friction coefficient reaches about 0.42 at r=1 ∶6 while the hardness of films is highest. Raman spectra and FTIR spectra reveal that with the increase of r, the fluorine content gradually increases. However, the intensity ratio ID/IG of Raman bands of disordered graphite (D-band) and graphite (G-band) of F-DLC films decreases, which is indicative of the decrease of the fraction of aromatic ring. The results also show that the F content is another significant factor which affects the friction coefficient. The weakening of —CF2 asymmetric stretch vibration intensity and the formation of CFH in C C chains may result in a lower friction coefficient of F-DLC films.

Keywords:

Authors and contacts

1.
Department of Physics, Suzhou University, Suzhou 215006, China

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Cited By

[1]	Hirakuri K K, Yoshimuraa M, Friedbacherb G 2003 Diam. Relat. Mater. 12 1013
[2]	Zhong M, Zhang C H, Luo J B, Lu X C 2009 Appl. Surf. Sci. 256 322
[3]	Hauert R 2004 Tribol. Int. 37 996
[4]	Ban M, Hasegawa T, Fujii S, Fujioka J 2003 Diam. Relat. Mater. 12 47
[5]	Jan D J, Ai C F 2001 Mater. Chem. Phys. 72 158
[6]	Zhang W, Tanaka A 2004 Tribol. Int. 37 979
[7]	Wang P, Wang X, Xu T, Liu W M, Zhang J Y 2007 Thin Solid Films 515 6899
[8]	Bares J A, Sumant A V, Grierson D S, Carpick R W, Sridharan K 2007 Tribol. Lett. 27 82
[9]	Bendavid A, Martin P J, Randeniya L, Amin M S 2009 Diam. Relat. Mater. 18 66
[10]	Trippe S C, Mansano R D, Costa F M, Silva R F 2004 Thin Solid Films 446 85
[11]	Jiang M F, Ning Z Y 2004 Acta Phys. Sin. 53 1588 (in Chinese) [江美福、宁兆元 2004 53 1588]
[12]	Zhu L, Jiang M F, Ning Z Y, Du J L, Wang P J 2009 Acta Phys. Sin. 58 6430 (in Chinese) [朱丽、江美福、宁兆元、杜记龙、王培君 2009 58 6430]
[13]	Zhang X J, Dong Y K, Liu Y H, Schaefer J A 2009 Chin. Phys. B 18 236
[14]	Liu Z M 2009 Principles and Design of Tribology (Wuhan: Wuhan University of Technology Press) p67 (in Chinese) [刘佐民 2009 摩擦学理论与设计 (武汉:武汉理工大学出版社)第67页]
[15]	Jiang M F, Ning Z Y 2006 Surf. Coat. Technol. 200 3682
[16]	Sui J H, Zhang Z G, Cai W 2009 Nucl. Instrum. Meth. B 267 2477
[17]	Jung H S, Park H H 2002 Thin Solid Films 420—421 250
[18]	Yu G Q, Tay B K, Sun Z, Pan L K 2003 Appl. Surf. Sci. 219 235

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Catalog

Vol. 59, Issue 12 - 2010-06-20

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