Author:
Erpalov Mikhail,Panin Evgeny
Abstract
The article is devoted to studying the rheological properties of metals and alloys in a cold state. The method is proposed to identify the hardening curve of a material based on torsion tests of round specimens with a notch. Determining the hardening curve is based on measuring the coordinates of points on the surface of the specimen after testing and determining the corresponding value of the torque. Based on these values the coefficients in an equation for the stress-strain dependence can be determined by minimizing the derived functional. The paper proposes the algorithm for the numerical implementation of the new identification method. The results of the computer simulation confirmed its effectiveness.
Reference12 articles.
1. Polukhin P. I., Gun G. Ya., Galkin A. M., Resistance to plastic deformation of metals and alloys (Metallurgiya, Moscow, 1976) (in Russian)
2. Bridgman P., Studies in Large Plastic Flow and Fracture (Harvard University Press, Cambridge, Massachusetts, 1964)
3. DETERMINING THE PLASTIC STRAIN RESISTANCE OF METALLIC MATERIALS ON AN AUTOMATED PLASTOMETRIC COMPLEX
4. A Numerical Study of Plastic Strain Localization and Fracture in Al/SiC Metal Matrix Composite
5. Nadai A., Theory of flow and fracture of solids (McGraw-Hill Book Company, New York, 1963)