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Purpose: Experimental verification of various thermo-mechanical (TM) processing schedules, with aim to modify the structure characteristics using press forging of Si-Mn TRIP (Transformation Induced Plasticity) steel, was described. Design/methodology/approach: High strength and ductility of TRIP steels is attributed to the TRIP effect resulting from the strain induced martensitic transformation of the retained austenite in the multiphase (ferrite, bainite, martensite) microstructure. In order to rationalize the retained austenite (RA) volume fraction in steel microstructure, several TM schedules were employed at experiment where different austenite conditioning was considered. Findings: The various multiphase structure characteristics were then resulting after TM processing of steel, where different volume fractions of ferrite, bainite and RA were received in the steel. The modification of structural characteristics of steel then influenced the deformation behavior and mechanical properties TRIP steel. Research limitations/implications: The present work also focused on monitoring of RA transformation during incremental mechanical straining using in-situ neutron diffraction technique. Originality/value: This non-convenient experimental method was used to characterize the kinetics of RA transformation and its stability during consecutive straining.
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Rocznik
Tom
Strony
59--63
Opis fizyczny
Bibliogr. 12 poz., rys., tab.
Twórcy
autor
- COMTES FHT Inc., Prumyslova 995, 33441 Dobrany, Czech Republic
autor
- Institute of Materials Engineering, ANSTO, Menai NSW 2234, Australia
autor
- COMTES FHT Inc., Prumyslova 995, 33441 Dobrany, Czech Republic
autor
- COMTES FHT Inc., Prumyslova 995, 33441 Dobrany, Czech Republic
Bibliografia
- [1] J. Džugan, Z. Nový, M. Sosnová, Fatigue Life optimization of steel by thermomechanical treatment with the use of physical thermomechanical simulator, Advanced Materials Research 264-265 (2011) 1725-1730.
- [2] D. Hauserová, Z. Nový, P. Motyka, J. Džugan, Influence of carbides spheroidisation on mechanical properties in medium carbon steel, Journal of Iron and Steel Research International 18 (2011) 417-421.
- [3] V. Zackay, Trans. Of ASM 31/9 (1967) 252.
- [4] T. Ros -Yanez., Y. Houbaert, A. Mertens, Characterisation of TRIP assisted multiphase steel surface topography by atomic force microscopy, Materials Characterization 47 (2001) 93-104.
- [5] E. Wirthl, A. Pichler, R. Angerer, P. Stiaszny, K. Hauzenerger, Y. Titovels, M. Hackl, Fundamental Materials Science of the TRIP Phenomenon, International Conference on TRIP-Aided High Strength Ferrous Alloys, Czech Republic, 2014.
- [6] L. Zhao, J. Moreno, S. Kuruijver, J. Sietsma., S. Van der Zwaag, TRIP-Aided Ferrous Alloys, Processing of the International Conference on TRIP-Aided High Strength Ferrous Alloys, Ghent, Belgium, 2002.
- [7] P. Lukaš, P. Jenuš, J. Zrník, Z. Nový, In situ neutron diffraction studies of phase transformations in Si - Mn TRIP steel, Processing of the 9th International Conference on the Mechanical Behavior of Materials, Geneve, 2003.
- [8] O. Muransky, J. Zrník, P. Lukaš, P. Jenuš, Z. Nový, Acta Metalurgica Slovaca 10 (2004) 228.
- [9] O. Muránsky, P. Lukáš, P. Šittner, J. Zrník, P. Jenuš, and Z. Nový, The 7th International Conference on Residual Stresses, Xian, China (2004), (CD).
- [10] K.K. Park., S.T.Oh, S.M. Baeck, D.I. Kim, J.H. Han, H.N. Han, S-H. Park, C.G.Lee, S-J. Kim, K.H. Oh. In-situ deformation behavior of Retained Austenite on TRIP steel, Material Science Forum 408-412 (2002) 571-576.
- [11] Q. Furmémont, et al., Fundamental Materials Science of the TRIP Phenomenon, International Conference On TRIP-Aided High Strength Ferrous Alloys, Ghent, Belgium, 2002.
- [12] K.J. Irvine, D.T. Llewellyn, F.B. Pickering, Journal of Iron Steel Inst. 199 (1961) 153-175.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-55bf2412-977d-40d1-9e47-92fbc03634b5