Projects – Grupa Cyfryzacji Przemysłu i Modelowania Wieloskalowego

Development of an innovative technology for manufacturing reusable forging tools with increased durability for strategic, from a national security point of view, forgings in the military and automotive industries, to improve the efficiency and stability of their production through the use of artificial intelligence and virtual reality HMD goggles.
Development of the full field model of dynamic recrystallization based on the hybrid random cellular automata and finite element method
Development of full field three dimensional multi scale numerical model of microstructure evolution based on digital material representation and evaluation of influence of model reduction on calculation accuracy
Development of the multiscale numerical model of nanoindentation test for evaluation of strength properties of nanolayers obtained after pulsed laser deposition process. Coordinator: dr inż. Konrad Perzyński
Evaluation of high performance computing capabilities during modelling of microstructure evolution based on cellular automata method. Coordinator: mgr inż. Mateusz Sitko.
Development of the new integrated method for determining the characteristic of the technological strength of porous materials for application in numerical modelling of consolidation processes. Coordinator: dr hab. inż. Łukasz Madej.
Development and validation of concurent random cellular automata - finite element (RCAFE) model with virtual microstructure representation for modelling failure in multi-phase metallic materials. Coordinator: dr hab. inż. Łukasz Madej.
Development of the multiscale numerical model for simulation of material behavior under complex plastic deformation conditions. Coordinator: dr inż. Joanna Szyndler.
„Generator cyfrowej reprezentacji struktur nanowarstwowych dla komercyjnych aplikacji numerycznych.”, Grant Dziekański, 15.11.110.151. Kierownik: mgr inż. Konrad Perzyński.
Advanced, precipitation strengthened materials created by deformation-induced fine-scale multilayered nanostructure. UMO-2012/05/B/ST8/00215, coordinator prof. dr hab. inż. Janusz Majta.
Phase transformations near the interface of bi- and three layered metallic strips based on copper manufactured by explosive welding technology. 2012/5/B/St8/02522, coordinator prof. dr hab. inż. Henryk Paul.
VADPSheet Project- Property oriented design of hard constituent hardness and morphology in continuously annealed/galvanised DP sheets. Coordinator: prof. dr hab. inż. Maciej Pietrzyk
Adaptive finite element method in multi scale problems of mechanics, National research project, N N501 120836. Coordinator: dr hab. inż. Krzysztof Banaś.
Three dimensional analysis of strain inhomogenetities along microstructure features on the basis of experimental study and numerical multi scale digital material representation approach, National research project, N N508 583839. Coordinator: dr hab. inż. Łukasz Madej.
Technological aspects of use of a new generation of steels (AHSS) in the automobile body parts. R&D project. Coordinator: prof. dr hab. inż. Zbigniew Gronstajski.
System for optimization of the processes and production cycles metalforming. R&D project. Coordinator: prof. dr hab. inż. Jan Kusiak.
Creation of the methodology of design, implementation and deployment of multiscale computing on heterogeneous hardware architectures. National research project. Coordinator: dr inż. Łukasz Rauch.
Multi scale modeling of microstructure evolution during deformation on the basis of the cellular automata framework. National research project. Coordinator: dr hab. inż. Łukasz Madej.
Development and identification of polycrystalline microscale materials constitutive models. Coordinator: dr inż. Wojciech Wajda.
Algorithms for creation of the digital material representation for use in multi scale simulations, AGH project, 15.11.110.091. National research project. Coordinator: dr hab. inż. Łukasz Madej.
Development and implementation of the system for aiding welding processes in the aerospace industry, IniTech AeroSteel, NR. 17.17.110.8905. Coordinator: prof. dr hab. inż. Jacek Rońda.