Search Results

1 - 10 of 15 items :

  • "nodular cast iron" x
Clear All

aqueous salt solutions . Hamberg, K., Johannesson, B., Robertson, A., 1997. Defect sensitivity in nodular cast iron for safety critical components , European Structural Integrity Society, 22, 37-47. Mehra, R., Soni, A., 2002. Cast iron deterioration with time in various aqueous salt solutions , Bulletin of Materials Science, 25(1), 53-58. Ogundare, O., Babatope, B., Adetunji, A. R., Olusunle, S. O. O., 2012. Atmospheric corrosion studies of ductile iron and austenitic stainless steel in an extreme marine environment , Journal of Minerals and Materials

REFERENCES Åberg, L. M., Hartung, C., 2012. Solidification of SiMo Nodular Cast Iron for High Temperature Applications , Transactions of the Indian Institute of Metals, 6, 633-636. Belan, J., Kuchariková, L., Tillová, E., 2016. The Microstructure Analysis of DV-2 Turbine Blade Damage Made from Ni-base Superalloy , 33rd Danubia Adria Symposium on Advances in Experimental Mechanics, Portoroz, 124-125. Bokůvka, O., Nicoletto, G., Guagliano, M., Kunz, L., Palček, P., Nový, F., Chalupová, M., 2014. Fatigue of Materials at Low and High Frequency Loading , EDIS

onečná R., F intová S. 2014. Metódy štúdia štruktúry . EDIS, Žilina. S kočovský P., V aško A. 2007. Kvantitatívne hodnotenie štruktúry liatin. EDIS, Žilina. T rško L., B okůvka O., N ový F., G uagliano M. 2014. Effect of severe shot peening on ultra-high-cycle fatigue of a low-alloy steel . Materials and design 57, 103-113. U lewicz R., T omski P. 2017. The effect of high-frequencies loading on the fatigue cracking of nodular cast iron . Metalurgija 56, 33-36. V aško A., S kočovský P. 2014. Vlastnosti a použitie kovových materiálov . EDIS, Žilina. V

manufacturing engineering, Vol. 47, No. 1, 19-25. U lewicz R., T omski P. 2017. The effect of high-frequencies loading on the fatigue cracking of nodular cast iron, METALURGIJA, Vol. 56, Iss. 1-2, 33-36.

References Eric O. at al.: The austempering study of alloyed ductile iron. Materials & Design 27 (2006), pp. 617-622. Ławrynowicz Z.: Transition from upper to lower bainite in Fe-Cr-C steel. Materials Science and Technology 20 (2004), pp. 1447-1454. Ławrynowicz Z.: Mechanism of bainite transformation in Fe-Cr-Mo-V-Ti-C steel. International Journal of Engineering 12 (1999), pp. 81-86. Pietrowski S.: Nodular cast iron of bainitic ferrite structure with austenite or bainitic structure. Archives of Materials Science 18 (1997), pp. 253-273. Guzik S. E

References Chang L.C.: Carbon content of austenite in austempered ductile iron. Scripta Materialia 39 (1998), 35-38. Pietrowski S.: Nodular cast iron of bainitic ferrite structure with austenite or bainitic structure. Archives of Materials Science 18 (1997), 253-273. (in Polish) Guzik S.E.: Austempered cast iron as a modern constructional material. Inżynieria Materiałowa 6 (2003), 677-680. (in Polish). Bhadeshia H.K.D.H.: Bainite in Steels, Institute of Materials, 1-458, London, 1992 . Bhadeshia H.K.D.H., Christian J.W.: Bainite in Steels. Metallurgical

(Stereometric Metallography) , 2nd revised and supplemented edition, Metallurgizdat, Moscow, 444p. Sjöberg, G., 2008. Aircraft Engine Structure Materials . Volvo Aero Corporation, online: https://www.sto.nato.int/publications/.../EN-AVT-207-13.pdf Vaško, A., 2017. Fatigue properties of nodular cast iron at low frequency cyclic loading . Archives of Metallurgy and Materials, 62(4), 2205-2210. Zatkaliková, V., Oravcová, M., Palček, P., Markovičová, L., 2017. The effect of surface treatment on corrosion resistance of austenitic biomaterial. TRANSACTIONS OF FAMENA, 41(4), 25

References 1. Chang L.C.: Carbon content of austenite in austempered ductile iron. Scripta Materialia. 39 (1998), 35-38. 2. Pietrowski S.: Nodular cast iron of bainitic ferrite structure with austenite or bainitic structure.Archives of Materials Science. 18 (1997), 253-273. (in Polish) 3. Guzik S.E.: Austempered cast iron as a modern constructional material. Inżynieria Materiałowa. 6 (2003), 677-680. (in Polish). 4. Ławrynowicz Z., Dymski S.: Analysis of carbon diffusion during bainite transformation in ADI.Archives of Foundry Engineering. 7 (2007), 87-92. 5

REFERENCES 1. Pietrowski S., Nodular cast iron of bainitic ferrite structure with austenite or bainitic structure. Archives of Materials Science. 18 (1997) 253-273 (in Polish). 2. Chang L.C., Carbon content of austenite in austempered ductile iron. Scripta Materialia. 39 (1998) 35-38. 3. Guzik S.E., Austempered cast iron as a modern constructional material. Inżynieria Materiałowa. 6 (2003) 677-680 (in Polish). 4. Ławrynowicz Z., Dymski S., Analysis of carbon diffusion during bainite transformation in ADI. Archives of Foundry Engineering. 7 (2007) 87-92. 5. Davis

References Chang L. C.: Carbon content of austenite in austempered ductile iron. Scripta Materialia 39 (1998), pp. 35-38. Pietrowski S.: Nodular cast iron of bainitic ferrite structure with austenite or bainitic structure. Archives of Materials Science 18 (1997), pp. 253-273 (in Polish). Christian J. W.: Theory of transformations in metals and alloys, 778, Oxford, Pergamon Press, 1965. Bhadeshia H. K. D. H.: Bainite in Steels, Institute of Materials, 1-458, London, 1992. Hultgren A.: Jernkontores Ann. , 135 (1951) 403. Ławrynowicz Z., Dymski S.: Mechanism of