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2011, vol. 52, iss. 4, pp. 295-300
Boride layer deposition onto some transition metals other than iron
University of Novi Sad, Technical Faculty, Zrenjanin
This paper analyzes literature data related to the research of the influence of boronizing as thermal diffusion process of surface heat treatment on the properties of some transition metals. Technique of boronizing was analyzed by means of the probability of surface hardening of different transition metals and their alloys in commercial use. This paper presents a review of some results of the studies of boride layers applied to nickel, titanium and their alloys, as well as to niobium, tungsten, chromium, cobalt, molybdenum and tantalum, with special attention to mutual dependence of their properties and characteristics while they are applied in science and technology of materials.
Anthymidis, K.G., Stergioudis, G., Tsipas, D.N. (2002) Boride coatings on non-ferrous materials in a fluidized bed reactor and their properties. Science and Technology of Advanced Materials, 3(4), 303-311
Anthymidis, K.G., Stergioudis, E., Tsipas, D.N. (2001) Boriding in a fluidized bed reactor. Materials Letters, 51(2), 156-160
Çelikkan, H., Öztürk, M.K., Aydin, H., Aksu, M.L. (2007) Thin Solid Films, 51: 5348
Devyatkin, S.V., Kaptay, G. (2000) Chemical and electrochemical behavior of titanium diboride in cryolite-alumina melt and in molten aluminum. Journal of Solid State Chemistry, 154(1), 107-109
Kaptay, G., Kuznetsov, S.A. (1999) Plasmas and Ions, 2, 45
Matsuda, F., Nakata, K., Tohmoto, K. (1984) Transactions JWRI, 13: 123
Mu, D., Shen, B., Yang, C., Zhao, X. (2009) Microstructure analysis of boronized pure nickel using boronizing powders with SiC as diluent. Vacuum, 83(12): 1481-1484
Mu, D., Yang, C., Shen, B., Jiang, H. (2009) Oxidation resistance of borided pure cobalt. Journal of Alloys and Compounds, 479(1-2): 629-633
Nikolić, M., Elazar, J. (2002) Primena optičke beskontaktne metode u karakterizaciji površina.
Özbek, I., Akbulut, H., Zeytin, S., Bindal, C., Ucisik, A.H. (2000) The characterization of borided 99.5% purity nickel. Surface and Coatings Technology, 126(2-3): 166-170
Ricceri, R., Matteazzi, P. (2004) A fast and low-cost room temperature process for TiB2 formation by mechanosynthesis. Materials Science and Engineering: A, 379(1-2): 341-346
Stojadinović, S., Ljevar, A., Tasić, I. (2004) Poznavanje materijala. Zrenjanin: Tehnički fakultet 'Mihajlo Pupin'
Tarakci, M., Gencer, Y., Calik, A. (2010) The pack-boronizing of pure vanadium under a controlled atmosphere. Applied Surface Science, 256(24), 7612-7618
Ueda, N., Mizukoshi, T., Demizu, K., Sone, T., Ikenaga, A., Kawamoto, M. (2000) Boriding of nickel by the powder-pack method. Surface and Coatings Technology, 126(1): 25
Usta, M., Ozbek, I., Bindal, C., Ucisik, A.H., Ingole, S., Liang, H. (2006) A comparative study of borided pure niobium, tungsten and chromium. Vacuum, 80(11-12), 1321-1325
Vangaveti, R. (2006) Boron induced surface modification of transition metals. Newark: New Jersey Institute of Technology, Master Thesis


article language: Serbian
document type: Professional Paper
published in SCIndeks: 28/02/2012

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