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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BPZ7-0006-0051

Czasopismo

Archives of Foundry Engineering

Tytuł artykułu

Examination of cast iron material properties by means of the nanoindentation method

Autorzy Trytek, A.  Orłowicz, W.  Tupaj, M.  Mróz, M. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
Abstrakty
EN 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.
Słowa kluczowe
PL żeliwo   krystalizacja szybka   próba indentacji  
EN cast iron   rapid crystallization   indentation test  
Wydawca Komisja Odlewnictwa Polskiej Akademii Nauk Oddział w Katowicach
Czasopismo Archives of Foundry Engineering
Rocznik 2012
Tom Vol. 12, iss. 4
Strony 141--144
Opis fizyczny Bibliogr. 24 poz., rys., tab., wykr.
Twórcy
autor Trytek, A.
autor Orłowicz, W.
autor Tupaj, M.
autor Mróz, M.
  • 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.
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