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D. Dziedzic, K. Muszka and J. Majta

References [1] K. Muszka, P.D. Hodgson, J. Majta, Study of the effect of grain size on the dynamic mechanical properties of microalloyed steels, Materials Science and Engineering A, ISSN 0921-5093. 500, 25-33 (2009). [2] J.K. Choi, D.-H. Seo, J.S. Lee, K.-K. Um, W.Y. Choo, Formation of Ultrafine Ferrite by Strain-induced Dynamic Transformation in Plain Low Carbon Steel, ISIJ International 43, 5, 746-754 (2003). [3] P. Cizek, B.P. Wynne, C.H.J. Davies, B.C. Muddle, P.D. Hodgson, Effect of Composition and

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D. Dziedzic and J. Majta

forming processes. Londyn 1980. J. Majta, Complete Model for Niobium-Microalloyed Steels Deformed under Hot Working Conditions, Kraków 2000. J. Majta, Odkształcanie i własności: stale mikrostopowe: wybrane zagadnienia, Uczelniane Wydawnictwa Naukowo-Dydaktyczne, Kraków 2008. P. D. Hodgson, R. K. Gibbs, A Mathematical Model to Preedict the Final properties of Hot Rolled C-Mn and Microalloyed Steels. Mathematical Modeling of Hot Rolling of Steel, ed. Yue S., CIMM, Hamilton, 76-85 (1990

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M. Ayaz, N. Banimostafa Arab and D. Mirahmadi Khaki

, 269 (2012). [8] A.J. De Ardo, in: M. Korchynsky, A.J. DeArdo, P. Repas, G. Tither (Ed.), Microalloying ’ 95 , Iron and Steel Society Inc., Pittsburg 1995. [9] M.C. Zhao, K. Yang, Y. Shan, Mater. Sci. Eng. A 335 , 14 (2002). [10] H. Tamura, H. Sekine, T. Tanaka, C. Ouchi, Ther-momechanical Processing of High-Strength Low-Alloy Steels, Butterworth &Co. Ltd., London 1988. [11] G.S. Peace, Taguchi method, A hands-on approach, Addision–Wesley Publishing Company, USA 1992. [12] J.Z. Zhang, J.C. Chen, E.D. Kirby, J. Mater. Process. Technol. 184 , 233 (2007

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M. Kwiecień, P. Graca, K. Muszka and J. Majta

. Muszka, Ł. Madej, J. Majta, Mater. Sci Eng. A 574 , 68-74 (2013). [13] C. Nagasaki, M. Kaga, K. Shibata, K. Asakura, M. Hatano, ISIJ International 42 , 57-S6, (2002). [14] M. Wielgus, J. Majta, J. Łuksza, P. Paćko, Steel Res. Int. 81 , 490-493 (2010). [15] K. Muszka, P.D. Hodgson, J. Majta, J. Mater. Process. Technol. 177 (1), 456-460 (2006). [16] K. Muszka, P. Graca, T. Simm, E. Palmiere, Key Eng. Mater. 622-623 , 1023-1030 (2014). [17] J. Majta, K. Muszka, L. Madej, M. Kwiecien, P. Graca, Manufact. Sci. Techn. 3 (4), 134

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P. Skubisz, A. Żak, M. Burdek, Ł. Lisiecki and P. Micek

References [1] R. Kuziak, R. Kawalla, S. Waengler, Advanced high strength steels for automotive industry, Arch. Civ. Mech. Eng. 8 , 103-117 (2008). [2] D.K. Matlock, G. Krauss, J.G. Speer, Microstructures and prop-erties of direct cooled microalloy forging steels, J. Mat. Proc. Techn. 117 , 324-328 (2001). [3] A.G. Kostryzhev, A. Al Sharami, C. Zhu [et al.], Effect of niobium clustering and precipitation on strength of an NbTi-microalloyed ferritic steel. Mat. Sci. Eng. A 607 , 226-235 (2014). [4] J. Adamczyk, M. Opiela, Engineering of Forged

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P. Skubisz, H. Adrian and J. Sińczak

References J. Adamczyk, Inžynieria wyrobów kutych ze stali konstrukcyjnych mikrostopowych. Hutnik - Wiadomości Hutnicze. 11, 529-538 (1999). A. B. Cota, F. E. G. Oliveira, A. L. Barbosa [et al.], Microstructure and Mechanical Properties of a Microalloyed Steel After Thermal Treatments. Materials Research 6 , 2, 116-121 (2003). K. W. Wegner, Werkstoffentwicklung fur Schmiedeteile im Automobilbau. ATZ Automobiltechnische Zeitschrift 100, 12, 918-927 (1998

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M. Opiela

References [1] T. Gladman, The Physical Metallurgy of Microalloyed Steels, The Institute of Materials, University Press, Cambridge 1997. [2] D.K. Matlock, G. Krauss, J.G. Speer, Microstruc-tures and properties of direct-cooled microalloy forging steels, J. Mater. Process. Technol. 117 , 324 (2001). [3] P. Skubisz, H. Adrian, J. Sińczak, Controlled cooling of drop forged microalloyed steel automotive crankshaft, Arch. Metall. Mater. 56 , 93 (2011). [4] J. Zrnik, T. Kvackaj, A. Pongpaybul, P. Sricharoenchai, J. Vilk, V. Vrchovinsky, Effect of

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B. Niżnik and M. Pietrzyk

, Informatyka w Technologii Materiałów 2 , 65-80 (2002). E. Hadasik, R. Kuziak, R. Kawalla, M. Adamczyk, M. Pietrzyk, Rheological model for simulation of hot rolling of new generation steel strips for automotive industry, Steel Research Int. 77 , 927-933 (2006). J.G. Lenard, M. Pietrzyk, L. Cser, Mathematical and Physical Simulation of the Properties of Hot Rolled Products, Elsevier, Amsterdam, (1999). M. Pietrzyk, R. Kuziak, Development of the constitutive law for microalloyed steels deformed in

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B. Chokkalingam, V. Raja, J. Anburaj, R. Immanual and M. Dhineshkumar

References [1] Seshan, S. (1999). Studies on Microalloyed Cast Steels. Proceedings of the Sixth Asian Foundry Congress. Calcutta. 181-187. [2] Jana, B.D., Chakrabarti, A.K. & Ray, K.K. (1993). Study of Cast Microalloyed Steels. Materials Science and Technology. 80-86. DOI:10.1179/026708303225008644. [3] Najafi, H., Rassizadehghani, J. & Halvaaee, A. (2007). Mechanical Properties of As Cast MicroalloyedSteels Containing V, Nb and Ti. Material Science and Technology. 23(6), 699-705. DOI: 10.1179/174328407X179755

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M. Opiela and A. Grajcar

ferrite nucleation in medium-carbon vanadium steels. Met. Materials Transaction A. 25A , 926-936. Gladman T. (1997). The Physical Metallurgy of Microalloyed Steels, University Press Cambridge. Adamczyk J. (2004). Engineering of Metallic Materials. The Silesian University of Technology Publishers. Gliwice (in Polish). Kiessling R. (1997). Lange N. Non metallic inclusions in steel. The Institute of Materials, London. Lis T., Nowacki K., Kania H. (2001). Improvement of