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References [1] Bödök K.: Az ötvözetlen, gyengén és erősen ötvözött szerkezeti acélok korrózióállósága, különös tekintettel azok hegeszthetőségére . Corweld, Budapest, 1997. 225–252. [2] Nippon Steel & Sumikin Stainless Steel Corporation https://nssc.nssmc.com/en/campaigns/duplex/orientation/nssc2120.php [3] Gunn R. (Ed.).: D uplex stainless steels: microstructure, properties and applications . Woodhead Publishing. 1997. 6–7. [4] Samdvik Coromant, Tudástár https://www.sandvik.coromant.com/hu-hu/knowledge/materials/pages/workpiece-materials.aspx [5] de Paiva J

hegesztése . Miskolci Egyetem. (accessed on: 2017.04.11) http://docplayer.hu/15987490-Vastaglemezek-hegesztese.html/ [6] Kuti J.: Vastaglemez X varratos kötésének kiváltása szűkített V varrattal . [7] Tóth L., Haraszti F., Kovács T.: A felületi érdesség hatása a hegesztett rozsdamentes acél korróziós ellenállására/Surface Roughness Effect in the Case of Welded Stainless Steel Corrosion Resistance . Acta Materialia Transylvanica 1/1. (2018) 53-56. https://doi.org/10.2478/amt-2018-0018 https://doi.org/10.2478/amt-2018-0017

of laser forming on mechanical properties of multiple-phase steels by using a thermal–microstructure–mechanical model , “International Journal of Materials Research”, Vol. 109(10)/2018, 922–929.

REFERENCES 1. Ali Z., Zhang C.X., Zhu J.C., Jin G., Wang Z.F., Wu Y.Q., Khan M.A., Dai J.G., and Tang Y.J.: The role of nanotechnology in food safety: Current status and future perspective. Journal of Nanoscience and Nanotechnology 18 (2018), 7983-8002. 2. Bumbudsanpharoke N., Choi J.W., and Ko S.H.: Applications of nanomaterials in food packaging. Journal of Nanoscience and Nanotechnology 15 (2015), 6357-6372. 3. Nakagawa Y., Tada M., Kojima K., Nakamaru H.: Effect of Nb contents on size of ferrite grains and Nb precipitates in ultra-low carbon steel for cans

References Armstrong, J.S. (Ed.) (2001).Principles of Forecasting - A Handbook for Researchers and Practitioners. Boston, MA, USA: Springer. Brown, R.G. (1963). Smoothing, Forecasting and Prediction of Discrete Time Series. Englewood Cliffs, NY, USA: Prentice Hall. Chermack, T.J., Lynham S.A. and Ruona, W. E. A. (2001). A Review of Scenario Planning Literature. Futures Research Quarterly, 17(2), pp. 7-31. Gajdzik, B., (2017). The Predictive Scenario Analysis in a Business Model: Variants of Possible Steel Production Trajectories and Efficiency in Poland. In

References [1] Fila J., Staliwo austenityczne, zwłaszcza okrętowe nierdzewne, patent PL 159766, WUP 01/1993 [Austenitic cast steel, especially stainless steel ships - available in Polish]. [2] Fila J., Wpływ azotu i czynników technologicznych na mikrostrukturę i własności użytkowe elementów okrętowych z amagnetycznych stopów Fe-Cr-Ni-Mn-Mo-Nb-N, ‘Zeszyty Naukowe Akademii Marynarki Wojennej’, 1996, No. 128A [The influence of nitrogen and technological factors on the microstructure and functional properties of marine elements from paramagnetic alloys Fe

References Janusz Kozak: Problems in assessing selected strength characteristics of steel two-skin ship structures. Publishers of the Gdansk University of Technology, Gdañsk 2005, (in Polish) Romanoff J., Kujala P.: The Optimum Design for Steel Sandwich Panels Filled with Polymeric Foams. Proc. of 6th Int. Conf. on Fast Sea Transportation , Vol. 3, Southampton, 2001 Noury P., Hayman B., McGeorge D., Weitzenbock J.: Lightweight Construction for Advanced Shipbuilding — Recent Development. DNV internal report, 2002 Internet: http

References 1. Dudek A., Wrońska A: Corrosion of steel type SNOK and ways to prevent it [in Polish], Stal. Metale & Nowe Technologie. Vol. 1-2 (2014), 88-91. 2. Cobb H. M.: The History of Stainless Steel, ASM International, 2010. 3. Nowacki J.: Duplex steel and its weldability [in Polish]. Przegląd Spawalnictwa, 10 (2008), 34-44. 4. Baszkiewicz J., Kamihski M.: Basics of corrosion of materials [in Polish]. Oficyna wydawnicza Politechniki Warszawskiej, Warszawa 2007. 5. Krakowiak S.: Pitting corrosion of alloy steels. Corrosion processes [in Polish]. Gdańsk 2007. 6

REFERENCES [1]. ***, “ UIC Code 773-4 R ”, International Union of Railways, F-75015 Paris, 1997 [2]. ***, EN 1992-1-1:2004, “ Eurocode 2: Design of concrete structures - Part 1: General rules and rules for buildings ”, 2004 [3]. ***, EN 1994-2:2005, “ Eurocode 4: Design of composite steel and concrete structures – Part 2: General rules and rules for bridges ” , 2005 [4]. Kvočák V., Tomko M., Kožlejová V., “ Modelling of Encased Steel Beams in Abaqus Program ” - INES 2013 - IEEE 17th International Conference on Intelligent Engineering Systems - June 19

References 1.Elsenei B.: Corrosion Inhibitors for Steel in Concrete - State of the Art Report. EFC Publications (2001). 2.Rincon de O. T., Perez O., E. Paredes, Caldera Y., Urdaneta C., Sandoval I.: Long-Term Performance of ZnO as a Rebar Corrosion Inhibitor. Cem. Concr. Compos. 24 (2002), 79-87. 3.Sagoe-Crentsil K. K., Yilmaz V. T., Glasser F. P.: Properties of Inorganic Corrosion Inhibiting Admixtures in Steel-Containing OPC Mortars: Chemical and Electrochemical Properties. Adv. Cem. Res 4 (1996), 91-102. 4. Gonzales J. A., Ramirez E.. Bautista A.: Protection