Details

Title

Accounting for the Inhomogeneity of Deformation in Identification of Microstructure Evolution Model / Niejednorodność Odkształcenia W I Dentyfikacji Modelu Rozwoju Mikrostruktury

Journal title

Archives of Metallurgy and Materials

Yearbook

2015

Numer

No 4 December

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Identifier

ISSN 1733-3490

References

Andrade (1983), Effect of molybdenum niobium and vanadium on static recovery and recrystallization and on solute strengthening in microalloyed steels, Trans, 14, 1967. ; Davenport (1999), Development of constitutive equations for the modelling of hot rolling, Sci Techn, 16, 1. ; Laasraoui (1983), Recrystallization of austenite after deformation at high temperatures and strain rates - analysis and modeling, Trans, 14, 151. ; Liu (2014), The study on kinetics of static recrystallization in the two - stage isothermal compression of steel, Mat Sci, 300. ; Szeliga (2006), Inverse analysis for identification of rheological and friction models in metal forming, Appl Mech Eng, 195. ; Sellars (1990), Modelling microstructural development during hot rolling, Sci Techn, 6, 1072. ; Gołąb (2014), Cellular Automata Finite Element approach for modelling microstructure evolution under thermo - mechanical processing conditions series Lecture Notes in Computer, Science, 8751. ; Loveday (2006), van der Winden Measurement of flow stress in hot plane strain compression tests Materials at High, Temperatures, 23, 85. ; Szeliga (2010), Identification of rheological models and boundary conditions in metal forming Product, J Mater Techn, 39. ; Karjalainen (1996), Characteristics of static and metadynamic recrystallization and strain accumulation in hot - deformed austenite as revealed by the stress relaxation method, ISIJ Int, 36. ; Vervynckt (2010), Characterization of the austenite recrystallization by comparing double deformation and stress relaxation tests, Steel Res Int, 81. ; Sztangret (2014), Metamodel of the plane strain compression test as a replacement of FE model in the inverse analysis Computer Methods in Materials, Science, 14, 215. ; Kowalski (2000), Development of a computer code for the interpretation of results of hot plane strain compression tests, ISIJ Int, 40, 1230, doi.org/10.2355/isijinternational.40.1230 ; Sellars (1979), Physical metallurgy of hot working in : Hot Working and Forming Processes eds The Metals London, Soc, 3. ; Yang (2011), Review on cellular automata simulations of microstructure evolution during metal forming process : Grain coarsening recrystallization and phase transformation Science China - Technological, Sciences, 54, 2107. ; Mao (2015), Study of static recrystallization behaviors of GCr steel under two - pass hot compression deformation, Mater Eng Perform, 24, 15, doi.org/10.1007/s11665-014-1264-5

DOI

10.1515/amm-2015-0494

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