Journal of Applied Mathematics and Computational Mechanics

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Search results for: author = 'Tomasz Skrzypczak' and title = ''

[1]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Numerical modeling of the casting solidification process in a mold taking into account the influence of an air gap with variable width, Journal of Applied Mathematics and Computational Mechanics, 23(2), 2024, pages 117-128.
[2]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Numerical modeling of the solidification process with consideration of shrinkage cavities formation and the influence of solid phase content on the feeding of the casting, Journal of Applied Mathematics and Computational Mechanics, 22(2), 2023, pages 75-86.
[3]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Analytical validation of the finite element method model for Laplace equation, Journal of Applied Mathematics and Computational Mechanics, 18(3), 2019, pages 97-106.
[4]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Analytical and numerical solution of the heat conduction problem in the rod, Journal of Applied Mathematics and Computational Mechanics, 16(4), 2017, pages 79-86.
[5]	Jerzy Winczek, Grażyna Rygał, Tomasz Skrzypczak, The model of temporary temperature field during multi-pass arc weld surfacing. Part I: Analitycal description, Journal of Applied Mathematics and Computational Mechanics, 14(2), 2015, pages 123-130.
[6]	Jerzy Winczek, Grażyna Rygał, Tomasz Skrzypczak, The model of a temporary temperature field during multi-pass arc weld surfacing. Part II: Example of computations, Journal of Applied Mathematics and Computational Mechanics, 14(3), 2015, pages 141-148.
[7]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Modeling of thermal contact through gap with the use of Finite Element Method, Journal of Applied Mathematics and Computational Mechanics, 14(4), 2015, pages 145-152.
[8]	Ewa Węgrzyn-Skrzypczak,Tomasz Skrzypczak, Mathematical and numerical basis of binary alloy solidification models with substitute thermal capacity. Part I, Journal of Applied Mathematics and Computational Mechanics, 13(2), 2014, pages 135-140.
[9]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Mathematical and numerical basis of binary alloy solidification models with substitute thermal capacity. Part II, Journal of Applied Mathematics and Computational Mechanics, 13(2), 2014, pages 141-147.
[10]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Investigation of accuracy of the interface tracking method, Journal of Applied Mathematics and Computational Mechanics, 12(2), 2013, pages 105-110.
[11]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Numerical model with explicit time integration scheme for tracking interfaces, Journal of Applied Mathematics and Computational Mechanics, 12(2), 2013, pages 111-116.
[12]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Mathematical model and numerical solution of double diffusive natural convection system, Scientific Research of the Institute of Mathematics and Computer Science, 10(2), 2011, pages 225-229.
[13]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Mathematical description of discontinuous Galerkin method in the theory of thermoelasticity, Scientific Research of the Institute of Mathematics and Computer Science, 9(2), 2010, pages 235-242.
[14]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Mathematical and numerical model of 3D natural convection in a cube, Scientific Research of the Institute of Mathematics and Computer Science, 8(1), 2009, pages 185-191.
[15]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Accuracy of numerical solution of heat diffusion equation, Scientific Research of the Institute of Mathematics and Computer Science, 7(1), 2008, pages 193-198.
[16]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Modelling of the binary alloys solidification process with constitutional undercooling condition, Scientific Research of the Institute of Mathematics and Computer Science, 6(1), 2007, pages 261-268.
[17]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Numerical analysis of the solidification process with natural convection of the liquid phase, Scientific Research of the Institute of Mathematics and Computer Science, 5(1), 2006, pages 185-190.
[18]	Ewa Węgrzyn-Skrzypczak, Tomasz Skrzypczak, Modelowanie przepływów cieczy z wykorzystaniem metody elementów skończonych, Scientific Research of the Institute of Mathematics and Computer Science, 1(1), 2002, pages 227-233.