Magnetic estimation of stresses applied to a two-layer steel CT3-steel 08X18H10T composite material during elastoplastic deformation by uniaxial tension

Abstract

The effect of uniaxial-tension stresses on the structure and physicomechanical properties of a two-layer Steel CT3-Steel 08X18H10T composite material that underwent preliminary rolling and steels that contain this material was studied. Within the practically important elastic-deformation region, the coercive force, maximum magnetic permeability, and residual inductance of the materials under study were found to exhibit unambiguous behavior and can be used for estimating changes in the stressed-deformed state of articles that are made from the composite material under conditions of uniaxial tension. We demonstrated that it is possible to use the heights and positions of peaks in the field dependence of the magnetic permeability for determining the degree of elastoplastic deformation by uniaxial tension of both the composite material as a whole and the components that comprise the material for estimating the applied stresses.