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dc.contributor.authorKashchenko, M. P.en
dc.contributor.authorKashchenko, N. M.en
dc.contributor.authorKorolev, A. V.en
dc.contributor.authorOglezneva, S. A.en
dc.contributor.authorChashchina, V. G.en
dc.date.accessioned2019-09-20T15:19:18Z-
dc.date.available2019-09-20T15:19:18Z-
dc.date.issued2019-
dc.identifier.citationKashchenko, M. P. Critical Grain Size Estimation in the γ-α Martensitic Transformation with Athermal Macrokinetics by the Example of Fe-Ni-Cr System / M. P. Kashchenko, N. M. Kashchenko, A. V. Korolev [et al.] // Physical Mesomechanics. – 2019. – Vol. 22. – Iss. 3. – P. 203-208.en
dc.identifier.issn1029-9599-
dc.identifier.otherno full texten
dc.identifier.urihttps://elar.usfeu.ru/handle/123456789/8923-
dc.description.abstractThe existence of the critical grain size Dc for reconstructive martensitic transformations implies that at austenite grain diameters D smaller than Dc the transformation is suppressed during cooling down to absolute zero temperature. In the case of athermal macrokinetics, martensite crystals divide connected (free from boundaries) volumes of austenite, which allows the use of fractal type models for the processing of results. This study shows that the symmetric model of orthogonal coupling of martensite crystals, developed to estimate the amount of formed martensite in single-crystal samples, can also be applied for an initial polycrystalline sample with a known austenite grain size distribution. A step-by-step algorithm for the theoretical estimation of Dc is proposed under the assumption that the formation of each succeeding generation of martensite crystals begins in the largest continuous volumes of retained austenite. If the estimated cumulative fraction of martensite coincides with the observed resultant value, the count is stopped, and the size of the largest of untransformed continuous volumes of retained austenite is taken as Dc. A detailed analysis of results was carried out for a sample of the alloy Fe - 29.96%Ni - 1.83% Cr in which the volume fraction of the largest grains (with the size D = 310–315 µm) was approximately 58% and four autocatalytic bursts were detected during cooling; the bursts corresponded mainly to the generations of martensite crystals associated with the austenite regions related to the transformation of the initial coarse grains. The amount of martensite crystals was determined by the increase in magnetization and by X-ray diffraction. With the cumulative fraction of martensite ≈70%, Dc was estimated to be ≈ 25.44 µm. © 2019, Pleiades Publishing, Ltd.en
dc.language.isoenen
dc.publisherPleiades Publishingen
dc.sourcePhysical Mesomechanicsen
dc.subjectATHERMAL MACROKINETICSen
dc.subjectCRITICAL GRAIN SIZEen
dc.subjectDYNAMIC THEORYen
dc.subjectMARTENSITIC TRANSFORMATIONSen
dc.subjectSYMMETRIC MODEL OF ORTHOGONAL COUPLING OF CRYSTALSen
dc.subjectAUSTENITEen
dc.subjectCHROMIUM ALLOYSen
dc.subjectGRAIN SIZE AND SHAPEen
dc.subjectIRON ALLOYSen
dc.subjectMARTENSITEen
dc.subjectSINGLE CRYSTALSen
dc.subjectTERNARY ALLOYSen
dc.subjectABSOLUTE ZERO TEMPERATUREen
dc.subjectCRITICAL GRAIN SIZESen
dc.subjectDYNAMIC THEORYen
dc.subjectMACROKINETICSen
dc.subjectPOLYCRYSTALLINE SAMPLESen
dc.subjectSTEP-BY-STEP ALGORITHMen
dc.subjectSYMMETRIC MODELen
dc.subjectTHEORETICAL ESTIMATIONen
dc.subjectMARTENSITIC TRANSFORMATIONSen
dc.titleCritical Grain Size Estimation in the γ-α Martensitic Transformation with Athermal Macrokinetics by the Example of Fe-Ni-Cr Systemen
dc.typeArticleen
dc.typeinfo:eu-repo/semantics/articleen
dc.typeinfo:eu-repo/semantics/publishedVersionen
local.description.firstpage203-
local.description.lastpage208-
local.issue3-
local.volume22-
local.identifier.wosWOS:000472979000005-
local.identifier.doi10.1134/V1029959919030056-
local.affiliationUral Federal University, Ekaterinburg, 620002, Russian Federationen
local.affiliationUral State Forest Engineering University, Ekaterinburg, 620100, Russian Federationen
local.affiliationMikheev Institute of Metal Physics Ural Branch, Russian Academy of Sciences, Ekaterinburg, 620990, Russian Federationen
local.affiliationPerm National Research Polytechnic University, Perm, 614990, Russian Federationen
local.contributor.employeeKashchenko, M.P., Ural Federal University, Ekaterinburg, 620002, Russian Federation, Ural State Forest Engineering University, Ekaterinburg, 620100, Russian Federation
local.contributor.employeeKashchenko, N.M., Ural Federal University, Ekaterinburg, 620002, Russian Federation
local.contributor.employeeKorolev, A.V., Ural Federal University, Ekaterinburg, 620002, Russian Federation, Perm National Research Polytechnic University, Perm, 614990, Russian Federation
local.contributor.employeeOglezneva, S.A., Mikheev Institute of Metal Physics Ural Branch, Russian Academy of Sciences, Ekaterinburg, 620990, Russian Federation
local.contributor.employeeChashchina, V.G., Ural Federal University, Ekaterinburg, 620002, Russian Federation, Ural State Forest Engineering University, Ekaterinburg, 620100, Russian Federation
local.identifier.rsi41679821-
local.identifier.eid2-s2.0-85067868665-
local.identifier.ednAAYXMS-
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