Prof. Andrij Milenin | Fpv drones | Best Researcher Award
Professor | AGH University of Science and Technology | Poland
Professor Milenin A. is an internationally recognized scholar in the field of computational mechanics, numerical simulations, and metal forming processes, whose academic journey began with an M.Sc., Ph.D. (Dr. inż), and D.Sc. (Dr hab. inż.) from the National Metallurgical Academy of Ukraine in Dnipro, followed by prestigious professor nominations in both Ukraine and Poland. He has held prominent research positions at the National Metallurgical Academy of Ukraine, the Institute of Ferrous Metallurgy of the Ukrainian Academy of Science, and as a scientific consultant for QuantorSoft Ltd., later advancing as Professor at Czestochowa Technical University in Poland and subsequently at AGH University in Krakow, where he currently leads the Laboratory of Computational Mechanics within the Department of Applied Computer Science and Modelling. His teaching spans a wide array of advanced subjects including Finite Element Method (FEM) in both Polish and English, Numerical Simulations and FEM, Nonlinear Mechanics, Solid Mechanics, CAD/CAE/CAM systems with 3D printing applications, Engineering and Algorithms of FPV Quadcopters, as well as specialized lectures on rheological models of nanomaterials for artificial heart chamber applications. He is the author of widely used academic resources such as the book Podstawy MES. Zagadnienia termomechaniczne published by AGH, and he has successfully supervised numerous doctoral theses contributing to the advancement of computational and mechanical engineering sciences.
Featured Publications:
Author(s). (2024). In vitro and in vivo degradation of the new dissolvable surgical wire, produced from Zn-based low alloy by hot and cold drawing. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Author(s). (2024). Investigating the anticancer potential of zinc and magnesium alloys: From base materials to nanocoated titanium implants. Materials.
Author(s). (2024). Mg–Ca surgical wires degradation in animal serum. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science.
Author(s). (2023). A numerical and experimental analysis of the mechanical behavior of the aluminum beverage can with internal varnish layers during axial load force testing. Materials.
Author(s). (2023). The impact of temperature conditions on the manufacturing process and mechanical behavior of beverage can ends during operation. Materials.
Author(s). (2023). Novel drawing technology for high area reduction manufacturing of ultra-thin brass wires. Archives of Civil and Mechanical Engineering.
Author(s). (2022). Influence of materials parameters of the coil sheet on the formation of defects during the manufacture of deep-drawn cups. Processes.