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Wojciech Jurczak

stosowanych w transporcie morskim, ‘Technika Transportu Szynowego’, 2013, No. 10, pp. 2370-2379 [Friction welding as a new method of joining aluminium alloys used in marine transport - available in Polish]. [9] Jurczak W., Szturomski B., Simulating the Impact of Exposure to Corrosive Medium on Cracking Initiation in AW7020M Alloy Specimens, ‘Solid State Phenomena’, 2014, Vol. 210, pp. 130-135. [10] Jurczak W., The effect of heat treatment on the structure and corrosion resistance of Al-Zn-Mg alloys, ‘Polish Maritime Research’, 2008, No. 4, pp

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Wojciech Jurczak

References Jurczak W: The effect of chemical composition and heat treatment on mechanical properties of Al-Zn-Mg alloys used in welded ship structures, and their resistance to stress corrosion. Ph.D. thesis, Gdansk University of Technology 1998 (in Polish) Łagin I: Struktura i swojstwa spłwow sistemy Al-Zn-Mg. W-wa 1982. Gorczyca S et al.: The effect of solid solution hardening and precipitation products action. Metalurgia 29, Proc. of Conference on Metallurgy and Founding 1981

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László Tóth, Ferenc Haraszti and Tünde Kovács

References [1] Haraszti F., Kovács T.: Plastic deformation effect of the corrosion resistance in case of austenitic stainless steel . IOP Conference Series: Materials Science and Engineering, 175. (2017). https://doi.org/10.1088/1757-899X/175/1/012048 [2] Tedmon Jr. C. S., Vermilyea D. A., Rosolowski J. H: Intergranular corrosion of austenitic stainless steel. Journal of the Electrochemical Society, 118/2. (1971) 192–202. https://doi.org/10.1149/1.2407966 [3] Bagyinszki Gy., Bitay, E.: Hegesztéstechnika II. Berendezések és mérések. EME

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Lesław Kyzioł

aciers a`tres haute resistance. Mateaux, 50, No 599-600, 1975. 5. Cudny K., Puchaczewski N.: Metal alloys for ship hulls (in Polish). Wydawnictwo Morskie, Gdańsk 1989. 6. Bugłacki H.: The effect of heat treatment and chemical constitution on mechanical properties and stress corrosion of the AlZn5Mg1 alloy in welded ship constructions. Ph. D. thesis (in Polish). Gdansk University of Technology. Gdańsk, 1981. 7. Cudny K et. al.: Summary of examination of weldability and corrosion resistance of the AlZn5Mg3 alloy. Scientific

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A. Łukaszczyk and J. Augustyn-PieniąŻek

Science, Essex, UK, (in English) (1978). [8] W.C. Rodrigues, L.R. Broilo, L. Schaeffer, G. Knörnschild, F.R. Mallqui Espinoza, Powder Technology 206 (2011). [9] J. Augustyn-Pieniążek, A. Łukaszczyk, R. Zapała, Archives of Metallurgy and Materials 58 (4) (2013). [10] S. Saji Viswanathan, C. Han-Cheol, Trans. Nonferrous Met. Soc. China 19 (2009). [11] L. Klimek, D. Rylska, J. Sokołowski, The Influence of Quality of Dental Alloys Used for Cast Prosthetic Completions on Their Corrosion Resistance. Annales of Transplantation 9 (2004). [12] E. Khamis, M

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Zbigniew Oksiuta and Ewa Och

oxide scale formation on ODS Fe13Cr steel, Journal of Nuclear Materials, No. 283-287, 1306-1310. 5. Kim J. S. (2002), Effect of alloying elements on the contact resistance and the passivation behaviour of stainless steels, Corrosion Science, No. 44, 635-655. 6. Oksiuta Z. (2011), Microstructural changes of ODS ferritic steel powder during mechanical alloying, Acta Mechanica et Automatica, Vol. 5, No. 2, 74-78. 7. Oksiuta Z. et al. (2011), Influence of Y2O3 and Fe2Y additions on the formation of nano-scale oxide particles

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A. Kajzer, W. Kajzer, K. Gołombek, M. Knol, J. Dzielicki and W. Walke

88, (12B), 228-231- (2012). [14] M. Basiaga, Z. Paszenda, W. Walke, P. Karasiński, J. Marciniak, Electrochemical Impedance Spectroscopy and corrosion resistance of SiO2 coated cpTi and Ti-6Al-7Nb alloy. in: E. Piętka, J. Kawa (Ed.), Springer-Verlag Berlin Heidelberg (2014). [15] A. Ziębowicz, B. Ziębowicz, B. Bączkowski, Solid State Phenomena 227, 447-450 (2015). [16] A. Baron, W. Simka, G. Nawrat, D. Szewieczek, JAMME 31, (2), 197-202 (2008). [17] G. Manivasagam, D. Dhinasekaran, A. Rajamanickam

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J. Loch, A. Krzykała, A. Łukaszczyk and J. Augustyn-Pieniążek

behavior of palladium-implanted titanium. Journal of the Electrochemical Society. 125(11), 1892-1893. [19] Metikos-Huković, M., Pilić, Z., Babić, R. & Omanović, D. (2006). Influence of alloying elements on the corrosion stability of CoCrMo implant alloy in Hank’s solution. Acta Biomaterialia. 2(6), 693-700. [20] Augustyn-Pieniążek, J., Łukaszczyk, A. & Zapała, R. (2013). Microstructure and corrosion resistance characteristics of Co-Cr-Mo alloys designed for prosthetic materials; Archives of Metallurgy and Materials. 58(4), 1281

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D. Medyński and A. Janus

and Automation WUT, SPR 28. (in Polish). [4] Podrzucki, Cz.(1991). Cast iron. Structure, properties and application. T 2. Kraków: Ed. by ZG STOP, 301-303. (in Polish). [5] Pietrowski, S. & Bajerski, Z. (2005). Ni-Resist cast iron with reduced nickel concentration. Archives of Foundry. 5(17), 445-458. (in Polish). [6] Medyński, D. & Janus, A. (2015). Effect of nickel equivalent on structure and corrosion resistance of nodular cast iron Ni-Mn-Cu. Archives of Foundry Engineering . 15(1), 69-74. [7] Janus, A. & Kurzawa, A. (2013). Effect of

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J. Cebulski, A. Fornalczyk and D. Pasek

://ksiegarnia.iknt.pl/uploads/files/Materialy_metalowe_fragment.pdf [5] J. Xia, C.X. Li, H. Dong, Thermal oxidation treatment of B2 iron aluminide for improved wear resistance, Wear 258, 1804-1812 (2005). [6] W.Z. Zhu, S.C. Deevi, Dispersion of iron aluminide with polyelectrolyte in water, Materials Research Bulletin 38, 1227-1233 (2003). [7] J. Cebulski, J. Barcik, Plastify of alloy based on the matrix of intermetalic Fe Al phase, Archives of Metallurgy 45, 315-329 (2000). [8] M. Palm, G. Sauthoff, Deformation behaviour and oxidation resistance of single-phase and two-phase L21