Publications

Impact factor publications

  • M. Sitko, L. Madej, The role of the cellular automata cell size and time step length in the microstructure evolution model – the static recrystallization case study, Journal of Computational Science 54,  2021, 101437 https://doi.org/10.1016/j.jocs.2021.101437.
  • M. Sitko, K. Banaś, L. Madej, Scaling scientific cellular automata microstructure evolution model of static recrystallization toward practical industrial calculations, Materials,14(15), 2021, 4082 https://doi.org/10.3390/ma14154082.
  • K. Muszka, M. Sitko, P. Lisiecka-Graca, T. Simm, E. Palmiere, M. Schmidtchen, G. Korpala, J. Wang, L. Madej, Experimental and numerical study of the effects of the reversal hot rolling conditions on the recrystallization behavior of austenite model alloys, Metals 11(1), 2021, 26, 1–17 https://doi.org/10.3390/met11010026.
  • K. Boguń, M. Sitko, M. Mojżeszko, L. Madej, Cellular Automata-based computational library for development of digital material representation models of heterogenous microstructures, Archives of Civil and Mechanical Engineering 21,2021, 61 (IF 3,672).
  • K. Perzyński, D. Zych, M. Sitko, L. Madej, Numerical investigation of the influence of pulsed laser deposited TiN thin film morphology on deformation inhomogeneities, Archives of Metallurgy and Materials 65, 2020, 713–720 (IF 0,586).
  • M. Sitko, Q. Chao, J. Wang, K. Perzynski, K. Muszka, L. Madej, A parallel version of the cellular automata static recrystallization model dedicated for high performance computing platforms – Development and verification, Computational Materials Science 172, 2020, 109283 (IF 2,644).
  • L. Madej, M. Sitko, A. Legwand, K. Perzynski, K. Michalik, Development and evaluation of data transfer protocols in the fully coupled random cellular automata finite element model of dynamic recrystallization, Journal of Computational Science 26, 2018, 66 – 77 (IF 2,502).
  • L. Madej, M. Sitko, M. Pietrzyk, Perceptive comparison of mean and full field dynamic recrystallization models, Archives of Civil and Mechanical Engineering 16(4), 2016, 569 –589 (IF 2,216).
  • L. Madej, M. Sitko, K. Radwanski, R. Kuziak, Validation and predictions of coupled finite element and cellular automata model: Influence of the degree of deformation on static recrystallization kinetics case study, Materials Chemistry and Physics 179, 2016, 282 – 294 (IF 2,084).
  • M. Sitko, M. Pietrzyk, L. Madej, Time and length scale issues in numerical modelling of dynamic recrystallization based on the multi space cellular automata method, Journal of Computational Science 16, 2016, 98 – 113 (IF 1,748).
  • C. Halder, M. Sitko, L. Madej, M. Pietrzyk, N. Chakraborti, Optimised recrystallisation model using multiobjective evolutionary and genetic algorithms and k-optimality approach, Materials Science and Technology 32(4), 2016, 366 – 374 (IF 1,538).
  • L. Madej, L. Sieradzki, M. Sitko, K. Perzynski, K. Radwański, R. Kuziak, Multi scale cellular automata and finite element based model for cold deformation and annealing of a ferritic-pearlitic microstructure, Computational Materials Science, 2013, 77, 172 – 181 (IF 1,879).