Microstructure and mechanical properties of Ti-B-C-N nanocomposite coatings

Luo Qing-Hong; Lu Yong-Hao; Lou Yan-Zhi

doi:10.7498/aps.60.086802

Abstract

Ti-B-C-N nanocomposite coatings with different C quantities are deposited on Si(100) and high speed steel (W18Cr4V) substrates by the closed-field unbalanced reactive magnetron sputtering in the mixture of argon, nitrogen and acetylene gases. The microstructures of Ti-B-C-N nanocomposite coatings are characterized by X-ray diffraction and high-resolution transmission electron microscopy; while the nanohardness and elastic modulus values are measured by the nano-indention method. The results indicate that in the studied composition range, the deposited Ti-B-C-N nanocomposite coatings are found still only in the TiN base nanocrystalline. When the C2H2 flux is small, adding C can promote crystallization of Ti-B-C-N nanocomposite coatings, and the grain can be increased to improve the mechanical properties, when the grain size of about 6 nm (C2H2 flux rate 2 cm3/min), hardness, elastic modulus and fracture toughness of Ti-B-C-N nanocomposite coatings achieve the maximum, respectively, 35.7 GPa, 363.1 GPa and 2.46 MPa m1/2; the further increase of the C content of Ti-B-C-N nanocomposite coating can reduce mechanical properties of coating dramatically.

Keywords:

Authors and contacts

1.
Beijing Institute of Aeronautical Materials, Beijing 100095, China;
2.
Department of Materials Physics and Chemistry, University of Science and Technology Beijing, Beijing 100083, China

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Cited By

[1]	Xiao S R, Gao M Z, Deng X C 2008 Nonferr. Met. 60 48 (in Chinese) [肖寿仁、高鸣智、邓晓春 2008 有色金属 60 48]
[2]	Zhang C H, Luo J B, Li W Z, Chen D R 2004 Acta Phys. Sin. 53 182 (in Chinese) [张晨辉、雒建斌、李文治、陈大融 2004 物理学报 53 182]
[3]
[4]
[5]	Holzschuh H 2002 Int. J. Refract. Met. Hard Mater. 20 143
[6]	Zhong D, Sutter E, Moore J J, Mustoe G G, Levashov E A, Disam J 2001 Thin Solid Films 398 320
[7]
[8]	Tsai P C, Chen W J, Chen J H, Chang C L 2009 Thin Solid Films 517 5044
[9]
[10]	Stuber M, Schier V, Holleck H 1995 Surf. Coat. Technol. 74 833
[11]
[12]
[13]	Shimada S, Takahashi M, Tsujino J, Yamazaki I, Tsuda K 2007 Surf. Coat. Technol. 201 7194
[14]
[15]	Mollart T P, Haupt J, Gilmore R, Gissler W 1996 Surf. Coat. Technol. 86 231
[16]	Vyas A, Lu Y H, Shen Y G 2010 Surf. Coat. Technol. 204 1528
[17]
[18]
[19]	Musil J, Regent F 1998 J. Vac. Sci. Technol. A 16 3301
[20]
[21]	Luo Q H, Yu D L, Lu Y H, Lou Y Z, Wang Y B 2010 Chin. J. Vac. Sci. Technol. 30 138 (in Chinese) [罗庆洪、于栋利、陆永浩、娄艳芝、王燕斌 2010 真空科学与技术学报 30 138]
[22]
[23]	Wu X M, Wu Q C, Sui Y F 1992 Acta Phys. Sin. 41 1133 (in Chinese) [吴雪梅、邬钦崇、隋毅峰 1992 物理学报 41 1133]
[24]
[25]	Fang Z B, Gong H X, Liu X Q, Xu D Y, Huang C M, Wang Y Y 2003 Acta Phys. Sin. 52 1749 (in Chinese) [方泽波、龚恒翔、刘雪芹、徐大印、黄春明、王印月 2003 物理学报 52 1749]
[26]	Li H K, Lin G Q, Dong C 2010 Acta Phys. Sin. 59 4301 (in Chinese) [李红凯、林国强、董闯 2010 物理学报 59 4301]
[27]
[28]
[29]	Yu L H, Dong S R, Xu J H, Li G Y 2008 Acta Phys. Sin. 57 7066 (in Chinese) [喻利花、董师润、许俊华、李戈扬 2008 物理学报 57 7066]
[30]
[31]	Ding W Y, Xu J, Lu W Q, Deng X L, Dong C 2008 Acta Phys. Sin. 57 5174 (in Chinese) [丁万昱、徐军、陆文琪、邓新绿、董闯 2008 物理学报 57 5174]
[32]
[33]	Lawn B, Evans A, Marshall D 1980 J. Am. Ceram. Soc. 63 574

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Vol. 60, Issue 8 - 2011-04-20

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