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INFLUENCE OF ALTERNATING MAGNETIC FIELD ON STRUCTURAL RELAXATION AND MAGNETIC PROPERTIES OF REACTOR VESSEL STEEL 15Kh2NMFA IN A STRESS-STRAIN STATE
Summary
Researchers examined how an alternating magnetic field (50 Hz) influences structural relaxation and magnetic properties of reactor vessel steel 15Kh2NMFA in a stress-strain state. The study found that structural relaxation and magnetic property changes are driven by microplasticity processes activated by the alternating magnetic field at sites of structural inhomogeneity with high internal stress concentrations.
The paper presents the results of a study of the relationship between relaxation processes of structure formation caused by the effect of an alternating (50 Hz) magnetic field and changes in the magnetic properties of reactor vessel steel 15Kh2NMFA in a stress-strain state. Structural relaxation and changes in the magnetic properties of the steel are due to the activation of microplasticity processes stimulated by an alternating magnetic field in places of structural inhomogeneity with a high level of internal stresses.
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