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Nawrocki P., Mróz Z., A constitutive model for rock accounting for viscosity and yield stress degradation, COMPUTERS AND GEOTECHNICS, 25, 4, 247-280, 1999 | |
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Księżopolski B., Kotulski Z.A., Adaptable security mechanism for dynamic environments, COMPUTERS AND SECURITY, 26, 3, 246-255, 2007 | |
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Szczepański J., Wajnryb E., Amigó J.M., Sanchez-Vives M.V., Slater M., Biometric random number generators, COMPUTERS AND SECURITY, 23, 1, 77-84, 2004 | |
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Tauzowski Piotr, Błachowski Bartłomiej, Lógó János, Computational framework for a family of methods based on stress-constrained topology optimization, COMPUTERS AND STRUCTURES, 303, 1-14, 2024 | |
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Dobrzański J.,Wojtacki K.,Stupkiewicz S., Lamination-based efficient treatment of weak discontinuities for non-conforming finite element meshes, COMPUTERS AND STRUCTURES, 291, 107209-1-14, 2024 | |
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Colabella Lucas, Cisilino Adrián P., Fachinotti Victor, Kowalczyk Piotr, An efficient strategy to implement local porosity constraints in the multiscale design of solids with parameterized biomimetic microstructures, COMPUTERS AND STRUCTURES, 285, 107084-1-107084-13, 2023 | |
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Tauzowski P., Błachowski B., Lógó J., Topology optimization of elasto-plastic structures under reliability constraints: a first order approach, COMPUTERS AND STRUCTURES, 243, 106406-1-15, 2021 | |
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Moallemi S., Pietruszczak S., Mróz Z., Deterministic size effect in concrete structures with account for chemo-mechanical loading, COMPUTERS AND STRUCTURES, 182, 74-86, 2017 | |
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Graczykowski C., Mathematical models and numerical methods for the simulation of adaptive inflatable structures for impact absorption, COMPUTERS AND STRUCTURES, 174, 3-20, 2016 | |
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Burczyński T., Szczepanik M., Intelligent optimal design of spatial structures, COMPUTERS AND STRUCTURES, 127, 102-115, 2013 | |
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Páczelt I., Mróz Z., Numerical analysis of steady thermo-elastic wear regimes induced by translating and rotating punches, COMPUTERS AND STRUCTURES, 89, 2495-2521, 2011 | |
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Dems K., Mróz Z., Damage identification using modal, static and thermographic analysis with additional control parameters, COMPUTERS AND STRUCTURES, 88, 1254-1264, 2010 | |
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Wiśniewski K., Wagner W., Turska E., Gruttmann F., Four-node Hu-Washizu elements based on skew coordinates and contravariant assumed strain, COMPUTERS AND STRUCTURES, 88, 1278-1284, 2010 | |
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Bajer C.I., Dyniewicz B., Virtual functions of the space–time finite element method in moving mass problems, COMPUTERS AND STRUCTURES, 87, 444-455, 2009 | |
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Wiśniewski K., Turska E., Improved four-node Hu-Washizu elements based on skew coordinates, COMPUTERS AND STRUCTURES, 87, 407-424, 2009 | |