Abstract
Experimental data on the evolution of macrodeformation fields of single-crystal samples of austenitic chromium–nickel steel with a superequilibrium nitrogen content under tension are analyzed on the basis of a model of autowave plastic flow. The conditions for the appearance and observation of different types of autowave deformation structures are established; such structures include a solitary front, a traveling autowave, and a stationary dissipative structure and are determined by the crystal-geometry of deformation and by the nitrogen concentration in the material.
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