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Information × Registration Number 0221U106589, 0121U112641 , R & D reports Title Advanced high-strength and high-ductility steel Fe-Mn-Al-C: the effect of technological parameters on the formation of their structure and physicochemical properties popup.stage_title Head Shemet Volodymyr Z., Кандидат хімічних наук Registration Date 14-12-2021 Organization National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute" popup.description2  The goal of the project is to find the effect of alloying elements on the strengthening mechanisms during heat treatment of advanced high strength steel (AHSS) based on Fe, Mn and Al. The influence of thermal solidification conditions, the introducing of grain grinding additives on the solidification processes of AHSS and the formation of fine-grained ingot structure will be studied. Additionally, the influence of electroslag remelting on the structure of steels and the content of nonmetallic inclusions, as well as the cooling rate on the size and composition of nanocarbide emissions will be studied. Analysis grain grinding and deformation hardening mechanisms in steels of due to nano-carbides will answer why light Fe–Al–Mn–C steels have hig strength, ductility and yield strength. It is also planned to study the phase transformations in the samples after cold- and / and hot-deformation of Fe-Mn-Al-C (Si) duplex steel and its kinetics of recrystallization in a wide range of annealing temperatures (973-1273 K). The study of the evolution of microstructure and texture after thermomechanical treatment of high-entropy AHSS will make it possible to identify parameters that are mainly responsible for improving the mechanical properties of the alloy. The parameters of some important processes occurring during metallurgical processing and crystallization of AHSS with hig entropy will be substantiated. First of all, these are the processes of formation and transformation of non-metallic inclusions in liquid metal at the stages of its secondary processing and subsequent casting. The high-temperature behavior of the advanced high-strength steels in protective and oxidizing atmospheres is a very important issue, because the technology of t manufacture involves heat treatment. As AHSSs contain high concentrations of manganese and aluminum, but the effect of these elements is still unclear, the study of high-temperature oxidation is an urgent task of the project. Product Description popup.authors Verzilov Oleksii P. Voron Mykhailo M. Semenko Anastasiia Yu. Shemet Volodymyr Z. popup.nrat_date 2021-12-14 Close