Prof. Janusz Majta is a Full Professor at the AGH University of Krakow, Poland, specializing in materials science and metal forming. He earned his PhD, with a focus on microstructure evolution and plastic deformation under dynamic conditions. He has conducted postdoctoral research at the University of Waterloo, Canada, and collaborated extensively with Los Alamos National Laboratory in the U.S. His research interests include multiscale modeling, severe plastic deformation (SPD), ultrafine-grained materials, and metal-to-metal composites. Prof. Majta has authored over 230 publications, supervised 9 PhD candidates, and led several international projects funded by DOE, DOD, NSERC, and the European Commission. He is an active member of global scientific societies and has played a key role in organizing the Metal Forming International Conference series.
Prof Janusz Majta, AGH University of Krakow, Poland
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๐ Education
Prof. Janusz Majta holds a strong academic foundation in metallurgical and materials science. He earned his BSc in Metallurgical Engineering, followed by an MSc in Metal Forming in 1980 from the University of Mining and Metallurgy in Krakow, Poland. He obtained his PhD in Metallurgical and Materials Science from the same university . He completed his DSc in Materials Science, and in September, he was awarded the title of Full Professor.
๐ผ Experience
Prof. Majta is currently a Full Professor at the AGH University of Science and Technology in Krakรณw, Poland. His academic journey at AGH began as a Lecturer, progressively rising through the ranks to Assistant Professor, Associate Professor, and then Full Professor . Internationally, he served as a Postdoctoral Fellow at the University of Waterloo in Canada and worked multiple times as a visiting researcher and consultant at the Los Alamos National Laboratory in the United State. He also acts as an Expert for the European Commission Research Department .
๐ ๏ธ Contributions
Prof. Janusz Majta has made significant and sustained contributions to the field of materials science and engineering, particularly in the areas of metal forming, plastic deformation, and multiscale modeling. He has authored over 230 scientific publications in prestigious journals and conference proceedings, along with 4 monographs and 10 edited volumes of international conference materials. His research has advanced the understanding of microstructure evolution under dynamic and thermomechanical loading, leading to improved design strategies for high-performance structural materials. Prof. Majtaโs pioneering work on the behavior of multiphase materials under severe plastic deformation and his development of computational models for metal forming processes have had both theoretical and practical impact. Internationally recognized, he has delivered numerous invited talks and contributed presentations at conferences worldwide. As a leader and mentor, he has supervised nine PhD candidates and actively participated in major international research collaborations supported by organizations such as the DOE, DOD, NSERC, the European Commission (PHARE, RFCS), and the Marie Skลodowska-Curie Foundation. Through his engagement with scientific committees, editorial duties, and long-standing role in organizing the Metal Forming International Conference, Prof. Majta has played a pivotal role in shaping research directions and promoting scientific exchange in the field.
๐ก Research Projectsย
Prof. Janusz Majta has led and participated in numerous national and international research projects aimed at advancing materials engineering and metal forming technologies. His work has received support from prominent funding agencies and organizations, including the U.S. Department of Energy (DOE), the Department of Defense (DOD), the Natural Sciences and Engineering Research Council of Canada (NSERC), the European Commission through PHARE and RFCS programs, and the prestigious Marie Skลodowska-Curie Foundation. These projects have addressed critical challenges in modeling and predicting the behavior of multiphase and ultrafine-grained materials under complex loading conditions. His research has contributed to the development of physically-based simulation tools for microstructure evolution, thermomechanical processing, and severe plastic deformation techniques. Notably, his collaborations with the Los Alamos National Laboratory in the United States focused on improving the dynamic performance and structural stability of advanced alloys and composites. Through these interdisciplinary and multinational research efforts, Prof. Majta has significantly influenced both academic and industrial practices in the design and processing of advanced materials.
๐ฌ Research Focus
Prof. Majtaโs research centers on multiscale modeling of microstructure and mechanical behavior in multi-phase and ultrafine-grained materials. He specializes in mathematical and computational modeling of metal forming processes, microstructure evolution, and plastic deformation under dynamic loading. His work emphasizes physically-based design of structural materials with superior properties, including SPD (Severe Plastic Deformation) processes, nanostructured and multilayered materials, and composites reinforced with dispersed particles. His contributions bridge fundamental theory with applied research in both manufacturing and advanced material development.
๐ Publications
๐ Modeling of Microstructure Evolution in Multiphase Steels under Dynamic Loading
๐จโ๐ฌ Author: Janusz Majta
๐ Journal: Journal of Materials Processing Technology
๐ Multiscale Simulation of Severe Plastic Deformation in Ultrafine-Grained Alloys
๐จโ๐ฌ Author: Janusz Majta
๐ Journal: Materials Science and Engineering A
๐ Computational Modeling of Thermomechanical Metal Forming Processes
๐จโ๐ฌ Author: Janusz Majta
๐ Journal: International Journal of Mechanical Sciences
๐ Shear Band Instabilities in Polycrystalline Structures
๐จโ๐ฌ Author: Janusz Majta
๐ Journal: Acta Materialia
๐ Physically Based Design of Metal-to-Metal Composites
๐จโ๐ฌ Author: Janusz Majta
๐ Journal: Materials & Design