Numerical methods in computations of foundry processes B Mochnacki, JS Suchy Polish Foundrymen's Technical Assoc., 1995 | 343 | 1995 |
Metody numeryczne: Podstawy teoretyczne, aspekty praktyczne i algorytmy E Majchrzak, B Mochnacki Wydawnictwo Politechniki Śląskiej, 1996 | 110 | 1996 |
Application of the BEM in the thermal theory of foundry E Majchrzak, B Mochnacki Engineering Analysis with Boundary Elements 16 (2), 99-121, 1995 | 74 | 1995 |
Modelowanie i symulacja krzepnięcia odlewów B Mochnacki, JS Suchy Wydawnictwo Naukowe PWN, 1993 | 72 | 1993 |
Numerical model of thermal interactions between cylindrical cryoprobe and biological tissue using the dual-phase lag equation B Mochnacki, E Majchrzak International Journal of Heat and Mass Transfer 108, 1-10, 2017 | 56 | 2017 |
Numerical modeling of skin tissue heating using the interval finite difference method B Mochnacki, AP Belkhayat Molecular & Cellular Biomechanics 10 (3), 233, 2013 | 49 | 2013 |
Application of the control volume method using the Voronoi polygons for numerical modeling of bio-heat transfer processes M Ciesielski, B Mochnacki Journal of Theoretical and Applied Mechanics 52 (4), 927-935, 2014 | 40 | 2014 |
Numerical modeling of short pulse laser interactions with multi-layered thin metal films E Majchrzak, B Mochnacki, AL Greer, JS Suchy CMES: Computer Modeling in Engineering and Sciences 41 (2), 131-146, 2009 | 40 | 2009 |
Numerical modelling of bioheat transfer in multi-layer skin tissue domain subjected to a flash fire E Majchrzak, B Mochnacki, M Jasiński Computational Fluid and Solid Mechanics 2003, 1766-1770, 2003 | 40 | 2003 |
The BEM application for numerical solution of non-steady and nonlinear thermal diffusion problems E Majchrzak, B Mochnacki Computer Assisted Methods in Engineering and Science 3 (4), 327-346, 2023 | 38 | 2023 |
Sensitivity of the skin tissue on the activity of external heat sources B Mochnacki, E Majchrzak Computer Modeling in Engineering and Sciences 4 (3/4), 431-438, 2003 | 36 | 2003 |
Identification of macro and micro parameters in solidification model B Mochnacki, E Majchrzak Bulletin of the Polish Academy of Sciences Technical Sciences, 107-113-107-113, 2007 | 35 | 2007 |
Numerical modeling of biological tissue heating. Admissible thermal dose M Ciesielski, B Mochnacki, R Szopa Scientific Research of the Institute of Mathematics and Computer Science 10 …, 2011 | 34 | 2011 |
Numerical modeling of casting solidification using generalized finite difference method B Mochnacki, E Majchrzak Materials Science Forum 638, 2676-2681, 2010 | 34 | 2010 |
Identification of substitute thermal capacity of solidifying alloy E Majchrzak, B Mochnacki, JS Suchy Journal of theoretical and applied mechanics 46 (2), 257-268, 2008 | 34 | 2008 |
Dual-phase lag model of thermal processes in a multi-layered microdomain subjected to a strong laser pulse using the implicit scheme of FDM E Majchrzak, B Mochnacki International Journal of Thermal Sciences 133, 240-251, 2018 | 33 | 2018 |
Sensitivity analysis of transient temperature field in microdomains with respect to the dual-phase-lag model parameters E Majchrzak, B Mochnacki International Journal for Multiscale Computational Engineering 12 (1), 2014 | 33 | 2014 |
Numerical simulation of thermal processes proceeding in a multi-layered film subjected to ultrafast laser heating E Majchrzak, B Mochnacki, JS Suchy Journal of Theoretical and Applied Mechanics 47 (2), 383-396, 2009 | 33 | 2009 |
Numerical model of heat transfer between blood vessel and biological tissue E Majchrzak, B Mochnacki Computer Assisted Mechanics and Engineering Sciences 6 (3-4), 439-447, 1999 | 32 | 1999 |
Dual-phase lag equation. Stability conditions of a numerical algorithm based on the explicit scheme of the finite difference method E Majchrzak, B Mochnacki Journal of Applied Mathematics and Computational Mechanics 15 (3), 2016 | 31 | 2016 |