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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-29a5f0fa-e754-4834-9738-262da27f468f

Czasopismo

Materials Science Poland

Tytuł artykułu

Mechanical and tribological properties of gradient a-C:H/Ti coatings

Autorzy Batory, D.  Szymański, W.  Cłapa, M. 
Treść / Zawartość http://www.materialsscience.pwr.wroc.pl/
Warianty tytułu
Języki publikacji EN
Abstrakty
EN The unusual combination of high hardness and very low friction coefficient are the most attractive tribological parameters of DLC (diamond-like carbon) layers. However, their usability is strongly restricted by the limited thickness due to high residual stress. The main goal of the presented work was to obtain thick, wear resistant and well adherent DLC layers while keeping their perfect friction parameters. As a proposed solution a Ti–TixCy gradient layer was manufactured as the adhesion improving interlayer followed by a thick diamond-like carbon film. This kind of combination seems to be very promising for many applications, where dry friction conditions for highly loaded elements can be observed. Both layers were obtained in one process using a hybrid deposition system combining PVD and CVD techniques in one reaction chamber. The investigation was performed on nitrided samples made from X53CrMnNiN21-9 valve steel. Structural features, surface topography, tribological and mechanical properties of manufactured layers were evaluated. The results of the investigation confirmed that the presented deposition technique makes it possible to manufacture thick and well adherent carbon layers with high hardness and very good tribological parameters. Preliminary investigation results prove the possibility of application of presented technology in automotive industry.
Słowa kluczowe
EN carbon layers   friction   adhesion   wear resistance  
Wydawca Springer
Czasopismo Materials Science Poland
Rocznik 2013
Tom Vol. 31, No. 3
Strony 415--423
Opis fizyczny Bibliogr. 34 poz., rys., wykr.
Twórcy
autor Batory, D.
  • Technical University of Lodz, Institute of Materials Science and Engineering, 1/15 Stefanowskiego St., 90-924 Lodz, Poland
  • Institute for Nanomaterials, Advanced Technology and Innovation, Technical University of Liberec, 2 Studentska St., 461 17 Liberec, Czech Republic
autor Szymański, W.
  • Technical University of Lodz, Institute of Materials Science and Engineering, 1/15 Stefanowskiego St., 90-924 Lodz, Poland
autor Cłapa, M.
  • Technical University of Lodz, Institute of Materials Science and Engineering, 1/15 Stefanowskiego St., 90-924 Lodz, Poland
Bibliografia
[1] ROBERTSON J., Mat. Sci. Eng., 37 (2002), 129.
[2] PIERSON H. O., Handbook of carbon, graphite, diamond and fullerens, Properties, processing and application, Noyes Publications, New Jersey, 1993.
[3] HAUERT R., Tribology International, 37 (2004), 991.
[4] MITURA S., NIEDZIELSKI P., WALKOWIAK B.(EDS.), NANODIAM. New Technologies for medical applications: studying and production of carbon surfaces allowing for controllable bioactivity, PWN, Warsaw, 2006.
[5] MCLAUGHLIN J. A., MAGUIRE P. D., Diamond & Related Materials, 17 (2008), 873.
[6] GRABARCZYK J. ET AL., Journal of Achievements in Materials and Manufacturing Engineering, 20 (2007), 107.
[7] HUANG L.-Y., XU K.-W., LU J., GUELORGET B., CHEN H., Diamond & Related Materials, 10 (2001), 1448.
[8] ERDEMIR A., Tribology International, 37 (2004), 1005.
[9] NI W., CHENG Y.-T., WEINER A. M., PERRY T. A., Surface and Coatings Technol., 201 (2006), 3229.
[10] ERDEMIR A., NILUFER I. B., ERYILMAZ O. L., BESCHLIESSER M., FENSKE G. R., Surface and Coatings Technol., 120 – 121 (1999), 589.
[11] FONTAINE J., DONNET C., GRILL A., LEMOGNE T., Surface and Coatings Technol., 146 – 147 (2001), 286.
[12] DONNET C., GRILL A., Surface and Coatings Technol., 94 – 94 (1997), 456.
[13] PENG X. L., CLYNE T. W., Thin Solid Films, 312 (1998), 207.
[14] WANG P., WANG X., XU T., LIU W., ZHANG J., Thin Solid Films, 515 (2007), 6899.
[15] YANG W. J., SEKINO T., SHIM K. B., NIIHARA K., AUH K. H., Thin Solid Films, 473 (2005), 252.
[16] CZY˙Z NIEWSKI A., PRECHT W., Journal of Materials Processing Technology, 157 – 158 (2004), 274.
[17] CUI L., GUOQING L., WENWU C., ZONGXIN M., CHENGWU Z., LIANG W., Thin Solid Films, 475 (2005), 279.
[18] DAMASCENO J. C., CAMARGO JR S. S., FREIRE JR F. L., CARIUS R., Surface and Coatings Technol., 133 – 134 (2000), 247.
[19] MONTEIRO O. R., DELPLANCKE - OGLETREE M. P., Surface and Coatings Technol., 163 – 164 (2003), 144.
[20] G°A HLIN R., LARSSON M., HEDENQVIST P.,Wear, 249 (2001), 302.
[21] KANO M., New Diamond and Frontier Carbon Technology, 16 (2006), 201.
[22] CŁAPA M., BATORY D., Journal of Achievements in Materials and Manufacturing Engineering, 20 (2007), 415.
[23] BATORY D., WILCZEK R., SZYMA´NSKI W., CŁAPA M., Mater. Sci. Eng. 4 (2010), 856.
[24] BATORY D., STANISHEVSKY A., KACZOROWSKI W., Journal of Achievements in Materials and Manufacturing Engineering 37 (2009), 381.
[25] WALKOWICZ J., SMOLIK J., TACIKOWSKI J., Surface and Coatings Technology, 116 – 119 (1999), 370.
[26] CHOI J., NAKAO S., KIM J., IKEYAMA M., KATO T., Diamond & Related Materials 16 (2007), 1361.
[27] BATORY D., BLASZCZYK T., CLAPA M., MITURA S., Journal of Materials Science 10 (2008), 3385.
[28] CHOY K. L., FELIX E., Materials Science and Engineering, A278 (2000), 162.
[29] LIMA-OLIVEIRA D. A. et al., Open Journal of Metal 2 (2012), 1.
[30] CHANG C. L., WANG D. Y., Diamond & Related Materials, 10 (2001), 1528.
[31] BURNETT P. J., RICKERBY D. S., Thin Solid Films, 154 (1987), 403.
[32] SEDLAˇCEK M., SILVA VILHENA L. M., PODGORNIK B., VIˇZINTIN J., J. Mechanical Engineering 9 (2011), 674.
[33] RONKAINEN H., LIKONEN J., KOSKINEN J., VARJUS S., Surface and Coatings Technology, 79 (1996), 87.
[34] LIU Y., ERDEMIR A., MELETIS E. I., Surface and Coatings Technology, 86 – 87 (1996), 564.
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