Professor Lukasz Madej
Cited by
Cited by
A perceptive comparison of the cellular automata and Monte Carlo techniques in application to static recrystallization modeling in polycrystalline materials
L Sieradzki, L Madej
Computational Materials Science 67, 156-173, 2013
Recent development trends in metal forming
Z Gronostajski, Z Pater, L Madej, A Gontarz, L Lisiecki, A Łukaszek-Sołek, ...
Archives of Civil and Mechanical Engineering 19 (3), 898-941, 2019
Digital Material Representation as an efficient tool for strain inhomogeneities analysis at the micro scale level
L Madej, L Rauch, K Perzynski, P Cybulka
Archives of Civil and Mechanical Engineering 11 (3), 661-679, 2011
Computational Materials Engineering: Achieving high accuracy and efficiency in metals processing simulations
M Pietrzyk, L Madej, L Rauch, D Szeliga
Butterworth-Heinemann, 2015
Recent development in orbital forging technology
J Nowak, L Madej, S Ziolkiewicz, A Plewinski, F Grosman, M Pietrzyk
International Journal of Material Forming 1 (1), 387-390, 2008
Multi scale cellular automata and finite element based model for cold deformation and annealing of a ferritic–pearlitic microstructure
L Madej, L Sieradzki, M Sitko, K Perzynski, K Radwanski, R Kuziak
Computational Materials Science 77, 172-181, 2013
Development of the multi-scale analysis model to simulate strain localization occurring during material processing
L Madej, PD Hodgson, M Pietrzyk
Archives of Computational Methods in Engineering 16 (3), 287-318, 2009
Digital/virtual microstructures in application to metals engineering–A review
L Madej
Archives of Civil and Mechanical Engineering 17 (4), 839-854, 2017
Multi-scale rheological model for discontinuous phenomena in materials under deformation conditions
L Madej, PD Hodgson, M Pietrzyk
Computational Materials Science 38 (4), 685-691, 2007
Multiscale modelling of microstructure evolution during laminar cooling of hot rolled DP steels
M Pietrzyk, Ł Madej, Ł Rauch, R Gołąb
Archives of Civil and Mechanical Engineering 10 (4), 57-67, 2010
Concurrent and upscaling methods in multi scale modelling-case studies
A Mrozek, W Kuś, T Burczyński, M Pietrzyk
Computer methods in materials science 8 (1), 1-15, 2008
Application of the automatic image processing in modeling of the deformation mechanisms based on the digital representation of microstructure
L Rauch, L Madej
International Journal for Multiscale computational engineering 8 (3), 2010
Computer aided development of the levelling technology for flat products
L Madej, K Muszka, K Perzyński, J Majta, M Pietrzyk
CIRP annals 60 (1), 291-294, 2011
Models and modelling for process limits in metal forming
W Volk, P Groche, A Brosius, A Ghiotti, BL Kinsey, M Liewald, L Madej, ...
CIRP Annals 68 (2), 775-798, 2019
The effects of deformation and microstructure inhomogeneities in the Accumulative Angular Drawing (AAD)
K Muszka, L Madej, J Majta
Materials Science and Engineering: A 574, 68-74, 2013
Tool for optimal design of manufacturing chain based on metal forming
M Pietrzyk, L Madej, S Weglarczyk
CIRP annals 57 (1), 309-312, 2008
Numerical modeling of dual phase microstructure behavior under deformation conditions on the basis of digital material representation
L Madej, J Wang, K Perzynski, PD Hodgson
Computational materials science 95, 651-662, 2014
Discrete micro-scale cellular automata model for modelling phase transformation during heating of dual phase steels
C Halder, L Madej, M Pietrzyk
Archives of Civil and Mechanical Engineering 14 (1), 96-103, 2014
Optimization of cellular automata model for the heating of dual-phase steel by genetic algorithm and genetic programming
C Halder, L Madej, M Pietrzyk, N Chakraborti
Materials and Manufacturing Processes 30 (4), 552-562, 2015
Effect of number of grains and boundary conditions on digital material representation deformation under plane strain
J Szyndler, L Madej
Archives of Civil and Mechanical Engineering 14 (3), 360-369, 2014
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