2019
DOI: 10.22226/2410-3535-2019-4-419-423
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Modeling of grain growth kinetics in complexly alloyed austenite

Abstract: A quantitative model is presented to describe the kinetics of grain growth in complexly alloyed austenite. The model assumes that the activation energy of grain growth is proportional to the activation energy of bulk self-diffusion, which is calculated as a function of the chemical composition of the solid solution using the previously obtained formula. The empirical parameters of the model are determined on the basis of experimental data on the kinetics of isothermal grain growth in steels with the chemical c… Show more

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Cited by 3 publications
(3 citation statements)
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References 24 publications
(46 reference statements)
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“…With allowance for the physically motivated correlation between AESD and the activation energy of recrystallization, we will presume proportionality of these parameters where the former depends on chemical composition of steel [7]. This presumption has been previously verified [8] by successful modeling of the normal grain growth in austenite of complexly alloyed steels.…”
Section: Introductionmentioning
confidence: 91%
“…With allowance for the physically motivated correlation between AESD and the activation energy of recrystallization, we will presume proportionality of these parameters where the former depends on chemical composition of steel [7]. This presumption has been previously verified [8] by successful modeling of the normal grain growth in austenite of complexly alloyed steels.…”
Section: Introductionmentioning
confidence: 91%
“…Grain growth model. This model [8] assumes proportionality of the grain growth activation energy to the activation energy of bulk self-diffusion dependent on chemical composition of solid solution in accordance with a previously obtained formula [9]. Empirical parameters are determined on the basis of experimental data available in literature on kinetics of isothermal grain growth for 10 steels in a wide range of chemical composition: C(0.05÷0.32), Mn(0.30÷1.88), Si(0.01÷0.29), Ni(0.0÷4.0), Cr(0.0÷2.0), Mo(0.0÷0.5), Nb(0.00÷0.05).…”
Section: Brief Description Of the Computer Model/program Ausevol Promentioning
confidence: 99%
“…Our approach to the ferritic transformation differs from existing analogues by the novel formulation of complex alloying effect on the nucleation rate of ferrite grains and mobility of α/γ−boundaries. Moreover, the model takes into account the effect of alloying by substitutional elements on the carbon diffusion coefficient of in bulk austenite [15]. The bainitic transformation model is briefly described in [4].…”
Section: Austenite Transformation Modelmentioning
confidence: 99%