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The paper presents results of examination of material parameters of cast iron with structure obtained under rapid resolidification conditions carried out by means of the nanoindentation method.
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141--144
Opis fizyczny
Bibliogr. 24 poz., rys., tab., wykr.
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- Department of Casting and Welding Rzeszów University of Technology, al. Powstańców Warszawy 12, 35-959 Rzeszów, Polska, trytek@prz.edu.pl
Bibliografia
- [1] Mróz M., Orłowicz A., Tupaj M. (2005): Fatigue of C355 alloy after rapid solidification. Archives of Foundry vol. 5, nr 15, 271-277.
- [2] Opiekun Z. (2005): Shaping the structure and mechanical properties of casting alloys, cobalt alloys. Editor Rzeszów University of Technology. Rzeszów.
- [3] Buytoz S., Yildirim M. M.: (2010): Microstructure and abrasive wear properties of M(Cr,Fe)7C3 carbides reinforced high-chromium carbon coating produced by gas tungsten arc welding (GTAW) process Archives of Foundry Engineering, Vol. 10, Special Issue1/2010, 279-286.
- [4] Paczkowska M. (2005): Effect of laser drilling on the structure of the surface layer of ductile cast iron components. Part 2 The structure of the transition zone and quenched. Journal of Research and Applications in Agricultural Engineering, Vol. 50(2) 65-68.
- [5] Szykowny T, Ciechacki K. (2006): The structure and hardness of the melted layer GTAW for ductile cast iron. Archives of Foundry, vol. 6, Nr 18 (2/2), 195-200.
- [6] Shevelya V., Trytek A., Sokolan J. S. (2011): Powierchnostnoje uprocznienie doewtektoidnoj stali pri bystroj kristalizacjii, Problems of Tribology, z.3 s.6-12.
- [7] Orłowicz A., Shevelya V., Trytek A., Kirilkov W. (2009): Effect of the concentrated heat flow treatment on the structure and the antiwear properties of cast iron. Archives of Foundry Engineering, t.9, z.2, s.185-188.
- [8] ASTM E 2546 - 07 Standard Practice for Instrumented Indentation Testing.
- [9] PN-EN ISO 14577-1 (2005): Metals. Instrumental attempt to push the indenter for determining the hardness of the other property of materials. Part 1: Test method.
- [10] Oliver W. C., Pharr G. M. (1992): An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments. Journal Materials Research, vol. 7, No.6 June, 1564-1583.
- [11] Stranyanek M, Ctvrtlik R., Bohac P., Jastrabik L., Kulikovsky V. (2005): Nanomechanicke vlasnosti uhlikovych vrstev mereng pristrojem NT600. Jemna Mechanika a Optika, Rocnik 50, nr 7-8, 214-217.
- [12] Sob M., Legut D., Friak M., Fiala J., Vitek V., Hafnem J. (2002): Nanoindentation and theoretical strength in metals and intermetallics. National Conference NANO`02, November 19-21 2002 Brno, 146-149.
- [13] Blahova O., Skalova J., Houdkova S.: Zkoumani materialu nanoindentacni metodou. National Conference NANO`02, pp. 138-141, November 19-21 2002 Brno.
- [14] Kot M., Rakowski W. (2005): Influence of surface roughness and hardness of the substrate on the hardness measurement of thin films. Machine Operation Issues. Issues Friction and Lubrication Consumption, vol. 40 z. 2 s. 17-30.
- [15] Sneddon I. N.: The transmission of force between two half-planes. Journal of Elasticity, vol. 2, No 4, December 1972, 283-295.
- [16] Hintermann H. E. (1993): Characterization of surface coatings by the scratch adhesion test and by indentation measurements. Analytical Chemistry nr 346, 45-52.
- [17] Blahova O., Skalova J., Houdkova S. (2002): Zkoumani materialu nanoindentacni metodou. NANO`02 Brno University of Technology, 19-21.11.2002, 138-141.
- [18] Sob M., Legut D., Friak M., Fiala J., Vitek V., Hafner J. (2002): Nanoindentacion and theoretical strength in metals and intermetallics. NANO`02 Brno University of Technology, 19-21.11.2002, 146-149.
- [19] Novak M., Stepanek I. (2008): Porovnani systemu tenka vrstva - substrat s velice rozdilnou odolnosti pri indentacnich zkouskach. Metal 2008, 13-15.05.2008 Hradec nad Moravici, Czech Republik.
- [20] Novak M., Stepanek I. (2008): Studium mechanickeho chovani rozdilnych systemu tenka vrstva - sklo pomoci indentacnich zkousek. Metal 2008, 13-15.05.2008 Hradec nad Moravici, Czech Republik.
- [21] Orłowicz A., Trytek A. (2007): Formation of the microstructure and performance of cast iron surface-enriched plasma arc. Archives of Foundry, t.7 nr 23, s.1-120, 2007.
- [22] Orłowicz W., Trytek A. (2003): Effect of rapid solidification on sliding wear of iron castings. Wear 254, 154-163.
- [23] Orłowicz W., Trytek A. (2003): Structural and operating aspects of rapid solidification of surface layer of spheroidal graphite iron castings International Journal of Cast Metals Research, vol.16, nr 5.
- [24] Orłowicz W., Trytek A. (2003): Susceptibility of iron castings to heat absorption from electric arc and to hardened-layer shaping. Metallurgical and Materials Transactions, vol. 34A, 2973-2984.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ7-0006-0051