Ultrafine grained structure development in steel with different initial structure by severe plastic deformation

Abstract: The present work deals with grain refinement of medium carbon steel, having different initial microstructure, modified by either thermal and/or thermomechanical treatment (TM) prior severe plastic deformation. In case of TM treated steel, structure refinement was conducted in two steps. Preliminary structure refinement has been achieved due to multistep open die forging process which provided total strain of 3. Uniform and fine recrystallized ferrite structure with grain size of the order of 2-5 μm and with ne… Show more

“…In addition, most methods of obtaining isotropic UFG materials by severe plastic deformation methods do not allow obtaining a sufficient volume of UFG materials with dimensions for commercial products. So, such well-studied methods of SPD implementation as: high-pressure torsion (HPT) [11][12]; equal-channel angular pressing (ECAP) [13][14] in a large number of different matrix designs [15][16][17][18][19][20] and many other methods have critical limitations on the length of the obtained workpiece, which significantly complicates its industrial application [21]. Further development of the scientific direction related to severe plastic deformation is associated with the development of new innovative methods for producing long-length products from ferrous and non-ferrous metals with an ultrafine-grained structure.…”

Realization of the innovative potential of radial-shear rolling for forming the structure and mechanical properties of AISI-321 austenitic stainless steel

“…In addition, most methods of obtaining isotropic UFG materials by severe plastic deformation methods do not allow obtaining a sufficient volume of UFG materials with dimensions for commercial products. So, such well-studied methods of SPD implementation as: high-pressure torsion (HPT) [11][12]; equal-channel angular pressing (ECAP) [13][14] in a large number of different matrix designs [15][16][17][18][19][20] and many other methods have critical limitations on the length of the obtained workpiece, which significantly complicates its industrial application [21]. Further development of the scientific direction related to severe plastic deformation is associated with the development of new innovative methods for producing long-length products from ferrous and non-ferrous metals with an ultrafine-grained structure.…”

Realization of the innovative potential of radial-shear rolling for forming the structure and mechanical properties of AISI-321 austenitic stainless steel

Effect of Severe Plastic Deformation on Microstructure and Mechanical Behaviour of Friction-Welded Structural Steel IS2062

Thermal Stability and Mechanical Behaviour of Equal Channel Angular Pressed Structural Steel IS2062