References:
1- J Majta, R Kuziak, M Pietrzyk, H Krzton.“use of the computer simulation to predict
mechanical properties of C-Mn steel. afterthermomechanical processing”, materials
processing technology, Vol. 60, pp. 581-588,1996.
2- K Sipos, L Remy, A Pineau. “Influence ofaustenite predeformation on mechanical
properties and strain-induced martensitictransformations of a high manganese steel”
metallurgical and materials transactions A,Vol. 7, pp. 857-864, 1976.
3- D Cornette, P Cugy, A Hildenbrand, MBouzekri, G Lovato. “Ultra High Strength
FeMn TWIP Steels for automotive safetyparts”, Revue de Metallurgic, Vol. 12, pp. 905-
918, 2005.
4- Reed-Hill, Robert, E ,Physical metallurgyprinciples, Publishing company, New York,
1994.
5- S Vercammen, B Blanpain, B C DeCooman. “cold rolling behavior of an
austenitic Fe-30Mn-3Al-3Si TWIP-steel: theimportance of deformation twinning”, Acta
Material, Vol. 52, pp. 2005-2012, 2004.
8- B X Huang, X D Wang, Y H Rong, LWang, L Jin. “Mechanical behavior and
martensitic transformation of an Fe–Mn–Si–Al–Nb alloy”, Materials Science and
Engineering A, Vol. 438, pp. 306-311, 2006.
9- J P Chateau, A Dumay, S Allain, A Jacques.“Precipitation hardening of a Fe-Mn-C TWIP
steel by vanadium carbides”. 15th InternationalConference on the Strength of Materials
(ICSMA-15), 2011.
10- G Dini, A Najafizadeh, R Ueji, S MMonir-Vaghefi. “Tensile deformation behavior
of high manganese austenitic steel: The role ofgrain size”, Materials and Design, Vol. 31, pp.
3395–3402, 2010.
13- B. H. Jiang, Xuan Qi, Weiming Zhou, T.Y. Hsu, “Comment on “influence of austenite
grain size on γ → martensitic transformationtemperature in Fe-Mn-Si-Cr alloys” Scripta
Materialia, Vol. 34, pp. 771-773, 1996.
14- T.N. Durlu,” Effect of austenite grain sizeon ε martensite formation in an Fe-Mn-Mo
alloy”, Journal of Materials Science Letters,Vol. 16, pp. 320-321, 1997.
15- J. Jun, Ch. Choi, “Variation of stackingfault energy with austenite grain size and its
effect on the MS temperature of γ→εmartensitic transformation in Fe–Mn alloy”,
Materials Science and Engineering: A, Vol.257, pp. 353-356, 1998.
