Abstract
This article presents the results of coercive force dependence study of on the chemical composition and geometric parameters for the purpose of identifying the steel grade in a non-destructive manner. The paper proposes to identify the steel grade by the coercive force, using a correlation with the carbon equivalent and the diameter of the rolled product. As a result of the work, the possibility of identifying steel grades by the carbon equivalent associated with the coercive force and the diameter of the product was established. The ranges of the carbon equivalent for steels St3, 18Mn2Si and 30CrMn2Si were determined. The results of the work established that the coercive force depends on the chemical composition and geometric parameters of the controlled product. Thus, the solutions proposed in this paper are of great practical importance for industrial enterprises for the purpose of steel products prompt identification. The obtained values of the carbon equivalent derived from the proposed dependence correspond to the values of the carbon equivalent calculated according to the standard GOST R 55020-2012. This method of non-destructive determination of steel grade by carbon equivalent through magnetic parameters can be applied to products made of tool and other structural steel grades. Keywords: non-destructive testing, coercive force, carbon equivalent, regression, magnetic properties.
Published Version
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