Abstract

The effectiveness of predicting the strain hardening of metallic materials at low-cycle fatigue under nonproportional biaxial loading conditions has been analyzed. The cycle nonproportionality coefficient, which characterizes the geometry of a deformation cycle path, is used as the determining parameter. A comparative analysis of the effectiveness of using the most known nonproportionality coefficients to determine the levels of additional hardening of the material in the state of stabilization of its cyclic properties has been carried out.

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