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Examination of Cast Iron Material Properties by Means of the Scratch Method

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents results of examination of unalloyed cast iron with diversified structure of the metallic matrix carried out by means of the scratch method. The research work was carried out with cast sample plates and with castings superficially remelted by means of the Gas Tungsten Arc Welding (GTAW) method. The test was carried out with load force of 5 N. Parameters such as the coefficient of friction, penetration depth, and acoustic emission were analysed.
Rocznik
Strony
75--80
Opis fizyczny
Bibliogr. 23 poz., fot., rys., wykr.
Twórcy
autor
  • Rzeszów University of Technology, Department of Casting and Welding, Rzeszów, Polska
autor
  • Rzeszów University of Technology, Department of Casting and Welding, Rzeszów, Polska
autor
  • Rzeszów University of Technology, Department of Casting and Welding, Rzeszów, Polska
autor
  • Rzeszów University of Technology, Department of Casting and Welding, Rzeszów, Polska
Bibliografia
  • [1] 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.
  • [2] 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.
  • [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] Opiekun Z. (2005): Shaping the structure and mechanical properties of casting alloys, cobalt alloys. Editor Rzeszów University of Technology, Rzeszów.
  • [5] Mróz M., Orłowicz A., Tupaj M. (2005): Fatigue of C355 alloy after rapid solidification. Archives of Foundry, Vol. 5, iss. 15, 271-277.
  • [6] Paczkowska M.: 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.
  • [7] 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.
  • [8] Adamiak S. (2006): Properties of grey cast iron remelted of laser. Archives of Foundry, Vol. 6, Nr 18 (2/2), 189-194.
  • [9] Dudek A., Witkiewicz Z. (2007): Prognosis of effects of remelting performed by means of plasma arc. Archives of Foundry Engineering, Vol. 7, 2, 79-82.
  • [10] Shevelya V., Orłowicz A., Trytek A., Kirilkov W. (2010): Influence of the microstructure of cast iron on the rheological properties of frictional contact and wear-resistance. Archives of Foundry, Engineering, z.1 t.10, s. 273-278.
  • [11] Shevelya V., Trytek A., Sokolan J.S. (2011): Powierchnostnoje uprocznienie doewtektoidnoj stali pri bystroj kristalizacjii, Problems of Tribology, z.3, s.6-12.
  • [12] Orłowicz A., Trytek A., Vaskova I., Frolihova M. (2010): Resistance to abrasive wqear cast iron after surface hardening. Konferencja: Konferencja: Quo Vadis Zlievarenstvo?, Tatranska Lomnica, 5-7.10.2010, s.134-138.
  • [13] Vencl A., Manić N., Popovic V., Mrdak M.: Possibility of the Abrasive Wear Resistance Determination with Scratch Tester. Tribol Lett (2010) 37:591–604.
  • [14] Yamagata H. (2005): Heat-impact bonding-strength value of plated iron film on piston assessed by microscratch testing. Journal of Japan Institute of Light Metals, vol. 55, No. 2, 82-85.
  • [15] Celik O., Ahlatci H., Kayali E.S., Cimenoglu H. (2005): High temperature abrasive wear behavior of an as-cast ductile iron. Wear 258 189–193.
  • [16] Laino S, Ortiz H.R., Dommarco R.C. (2009): The influence of austempering temperature on the wear resistance of ductile iron under two different tribosystems. ISIJ Interantional, vol. 49 , No. 1, pp. 132-138.
  • [17] Ctvrtlik R., Stranyanek M, Bohac P., Jastrabik L. (2005): Moznosti mericiho systemu NanoTest NT600. Jemna Mechanika a Optika, Rocnik 50, nr 7-8, 211-214.
  • [18] Hintermann H.E. (1993): Characterization of surface coatings by the scratch adhesion test and by indentation measurements. Analytical Chemistry nr 346, 45-52.
  • [19] Jirik P. Stepanek I. (2008): Akusticka emise vyuzivana pri hodnoceni poruseni z vrypove indentace. Metal 2008, 13-15.05.2008 Hradec nad Moravici, Czech Republik.
  • [20] Racek M., Stepanek I., Jirik P. (2010): Zmeny v prubehu signalu akusticke emise pri vrypove indentacji na ruznych materialech a korelace s morfologii poruseni. Metal 2010, 18-20.05.2010 Roznov pod Radhostem, Czech Republik.
  • [21] Mahcackova K., Stepanek I. (2008): Detalni stadium specifickych poruseni systemu tenka vrstva – substrat pri vrypove indentaci. Metal 2008, 13-15.05.2008 Hradec nad Moravici, Czech Republik.
  • [22] Palubjakova J., Stepanek I., Mahcackova K. (2008): Studium poruseni stystemu s tenkymi vrstvami ze staticke a vrypove indentace do hloubky systemu. Metal 2008, 13-15.05.2008 Hradec nad Moravici, Czech Republik.
  • [23] ASTM 171 – 03: Standard Test Method for Scratch Hardness of Materials Using a Diamond Stylus.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-19a158f1-5458-4475-bb30-6f71d6b74270
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