MICROSTRUCTURE EVOLUTION OF STEEL-ALUMINUM WIRE DURING DEFORMATION BY "EQUAL-CHANNEL ANGULAR PRESSINGDRAWING" METHOD
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
KU Publ.
Abstract
During experimental studies of the equal-channel angular pressing-drawing effect on the microstructure
evolution and mechanical properties change, the principal possibility and effectiveness of using the proposed
continuous method for forming an ultrafine-grained structure and increasing the strength properties of steelaluminum
wire was proved. The deformation was carried out at ambient temperature in three passes. It is shown
that both layers of bimetallic wire are processed unevenly. An aluminum shell with an initial grain size of 22 microns
was processed up to 2 microns. The steel core has a different grain size in the transverse and longitudinal sections.
With an initial grain size of 18 microns, after deformation the grain size is about 10 microns in the longitudinal
section and 8 microns in the transverse section.
Description
Citation
Volokitina I.E. MICROSTRUCTURE EVOLUTION OF STEEL-ALUMINUM WIRE DURING DEFORMATION BY "EQUAL-CHANNEL ANGULAR PRESSINGDRAWING" METHOD/I.E. Volokitina [et al]//Eurasian Physical Technical Journal. -2022. №1. Р.73-77.