HIGH TEMPERATURE OXIDATION BEHAVIOR OF MULTI-COMPONENT (Ti, Al, Zr,Cr) N FILMS\par DEPOSITED BY MULTI-ARC ION PLATING

J Chin Soc Corr Pro

2009, Vol. 29

Issue (4): 296-300 DOI:

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HIGH TEMPERATURE OXIDATION BEHAVIOR OF MULTI-COMPONENT (Ti, Al, Zr,Cr) N FILMS\par DEPOSITED BY MULTI-ARC ION PLATING

ZHAO Shilu^1;2;ZHANG Jun^1;2; LIU Changsheng¹

1. Key Laboratory for Anisotropy and Texture of Materials; Ministry of Education; School of Materials and Metallurgy;Northeastern University; Shenyang 110004
2. School of Mechanism Engineering; Shenyang University; Shenyang 110044

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Abstract

Using Ti-Al-Zr target and pure Cr target, the multi-component nitride films, (Ti, Al, Zr, Cr) N, were deposited on the substrates of high speed steel (W18Cr4V) by multi-arc ion plating technique. The high temperature oxidation of the film was carried out in the case of both the short-time (600 ℃, 700 ℃, 800 ℃ and 900 ℃ for 4 h) and long-time (700 ℃ and 800 ℃ for 100 h) tests. All of the specimens were characterized by scanning electron microscopy (SEM), energy dispersion X-ray spectroscopy (EDS) and X-ray diffraction (XRD). It was shown that the high temperature oxidation resistance of the film was up to 800 ℃ in case of short-time oxidation, and TiO₂ formed on the (Ti, Al, Zr, Cr) N film; while oxidation resistance of the film was up to 700 ℃\linebreak in case of long-time oxidation.

Key words: multi-arc ion plating (Ti, Al, Zr, Cr) N film high speed steel high temperature oxidation resistance

Received: 17 March 2009

ZTFLH:

TG174

Corresponding Authors: ZHAO Shi-Lu E-mail: zhaoshilu@sina.com

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Cite this article:

ZHAO Shilu ZHANG Jun LIU Changsheng. HIGH TEMPERATURE OXIDATION BEHAVIOR OF MULTI-COMPONENT (Ti, Al, Zr,Cr) N FILMS\par DEPOSITED BY MULTI-ARC ION PLATING. J Chin Soc Corr Pro, 2009, 29(4): 296-300.

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https://www.jcscp.org/EN/ OR https://www.jcscp.org/EN/Y2009/V29/I4/296

[1] Sathrum P, Coll B F. Plasma and deposition enhancement by modified arc evaporation source[J]. Surf. Coat. Technol.,1992, 50(2): 103-109
[2] Vetter J. Vacuum arc coatings for tools:potential and application[J]. Surf. Coat. Technol., 1995, 76-77:719-724
[3] Mitsuo A, Uchida S, Nihira N, et al. Improvement of high-temperature oxidation resistance of titanium nitride and titanium carbide films by aluminum ion implantation[J]. Surf.Coat. Technol., 1998, 103/104: 98-103
[4] Ma S L, Xu J, Jie W Q,et al. Characterization of microstructure and hardness of PCVD deposited Ti_1-xA_lx N hard coatings[J]. Acta Metall. Sin.,2004, 40(6): 669-672
    (马胜利, 徐健, 介万奇等. PCVD制备Ti1-xAlxN硬质薄膜的结构与硬度[J]. 金属学报, 2004, 40(6): 669-672)
[5] Lu Y H, Shen Y G, Zhou Z F, et al. Effects of nitrogen content on microstructure and oxidation behaviors of Ti-B-N nanocomposite thin films[J]. J. Vaccum Sci. Technol., 2006, 24A (2):340-349
[6] Zhao S L, Li Y, Zhang J, et al. Research progress of nitride coatings on tools[J]. Heat Treat. Met., 2008, 33(9): 99-104
    (赵时璐, 李友, 张钧等. 刀具氮化物涂层的研究进展[J].金属热处理, 2008, 33(9): 99-104)
[7] Xie Z W, Bai X J, Meng J L, et al. Oxidation behavior of (Ti Fe Cr) N multi-component films[J].Chin. J. Nonferrous Met., 2001,11(6): 1064-1068
    (谢致薇, 白晓军, 蒙继龙等. (Ti Fe Cr)N多元膜的氧化行为[J]. 中国有色金属学报, 2001, 11(6): 1064-1068)
[8] Raveh A, Weiss M, Shneck R. Optical emission spectroscopy as a tool for designing and controlling the deposition of graded (Ti Al) N layers by ECR-assisted reactive RF sputtering[J]. Surf. Coatings Technol., 1999, 111: 263-268
[9] Mitsuo A, Uchida S, Nihira N, et al. Improvement of high-temperature oxidation resistance of titanium nitride and titanium carbide films by aluminum ion implantation[J].Surf. Coat. Technol., 1998, 103/104: 98-103
[10] Shum P W, Li K Y, Zhou Z F, et al. Structural and mechanical properties of titanium-aluminium-nitride films deposited by reactive close-field unbalanced magnetron sputtering[J]. Surf. Coat. Technol., 2004,185(2-3): 245-253
[11] Luo Q, Rainforth W M, Munz W D. Wear mechanisms of monolithic and multi-component nitride coatings grown by combined arc etching and unbalanced magnetron sputtering[J].Surf. Coat. Technol., 2001, 146-147: 430-435
[12] Zhang J, Li L,Zhang L P, et al. Composition demixing effect on cathodic arc ion plating[J]. J. Univ. Sci. Technol. Beijing, 2006, 13(2):125-130
[13] Zhang J, Zhang Y, Li L, et al. Approximate design of alloy composition of cathode target[J]. J. Mater. Sci. Technol., 2006,22(5): 639-642

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