The Numerical Analysis of the Phenomena of Superficial Hardening of the Hot-Work Tool Steel Elements / Analiza Numeryczna Zjawisk Przypowierzchniowego Hartowania Elementów Ze Stali Narzędziowej Do Pracy Na Gorąco

Journal title

Archives of Metallurgy and Materials




No 4 December

Publication authors

Divisions of PAS

Nauki Techniczne


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


2015[2015.01.01 AD - 2015.12.31 AD]


ISSN 1733-3490


Gür (2001), Numerical investigation of nonhomogeneous plastic deformation in quenching process and, Materials Science Engineering, 319. ; Serejzadeh (2004), Modeling of temperature history and phase transformation during cooling of steel of Processing Technology, Journal, 146. ; Avrami (1939), Kinetics of phase change Chemical Physics II III, Journal of, 7, 1103. ; Heming (1999), Calculation of the residual stress of a steel cylinder with a non - linear surface heat - transfer coefficient including phase transformation during quenching, Journal of Materials Processing Technology, 55, 339, ; Taleb (2003), A micromechanical modelling of the Greenwood - Johnson mechanism in transformation induced plasticity, International Journal of Plasticity, 19, 1821, ; Carlone (2011), Development and validation of a thermo - mechanical finite element model of the steel quenching process including solid - solid phase changes, International applied Mechanics, 46, 955, ; Silva (2004), On the thermomechanical coupling in austenite - martensite phase transformation related to the quenching process and, International Journal of Solids Structures, 41, 1139, ; Koistinen (1959), A general equation prescribing the extent of the austenite - martensite transformation in pure iron - carbon alloys and plain carbon steels, Acta Metallurgica, 7, 59, ; Fischer (2000), A new view on transformation induced plasticity ( TRIP ), International Journal of Plasticity, 16, 723, ; Lee (1999), Characteristics of heat generation during transformation in carbon steel, Scripta Materialia, 40, 735, ; Cheng (2004), Determination of surface heat - transfer coefficients of steel cylinder with phase transformation during gas quenching with high pressures, Computational Materials Science, 29, 453, ; Jasiński (2003), Influence of fluidized bed on diffusional processes of saturation of steel surface layer Inżynieria Materiałowa Nr in Polish, Częstochowa, 6. ; Kang (2007), Three - dimensional thermo - elestic - plastic finite element modeling of quenching process of plain carbon steel in couple with phase transformation, International Journal of Mechanical Sciences, 49, 423, ; Mahnken (2011), On the simulation of austenite to bainite phase transformation, Computational Materials Science, 50, 1823, ; Leblond (1984), A new kinetic model for an isothermal metallurgical transformation in steel including effect of austenite grain size, Acta Materialia, 52, 137, ; Cherkaoui (1998), Micromechanical modeling of martensitic transformation induced plasticity ( TRIP ) in austenitic single crystals, International Journal of Plasticity, 14, 597, ; Huiping (2007), FEM simulation of quenching process and experimental verification of simulation results and, Material Science Engineering, 452. ; Ju (2006), Modeling and experimental verification of martensitic transformation plastic behavior in carbon steel for quenching process and, Materials Science Engineering, 438. ; Chen (2002), An incremental constitutive relationship incorporating phase transformation with the application to stress analysis, Journal of Materials Processing Technology, 122, 208, ; Coret (2002), A mesomodel for the numerical simulation of the multiphasic behavior of materials under anisothermal loading ( application to two low - carbon steels ), International Journal of Mechanical Sciences, 44, 1947, ; Caddemi (1991), Convergence of the Newton - Raphson algorithm in elastic - plastic incremental analysis, Numer Meth Eng, 31. ; Pęcherski (1996), Finite deformation plasticity with strain induced anisotropy and shear banding, Journal of Materials Processing Technology, 60, 35,