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Дата публикацииНазваниеАвторы
2015Inheritance of the Elastic Field of a Dislocation Center for Martensite Nucleation by a Driving Wave ProcessKashchenko, M. P.; Latypov, I. F.; Chashchina, V. G.
2017Inheritance of the Elastic Field of Martensite Nucleation Center by the Control Wave Process Initiating Deformations of Planes {110}c of Cubic CrystalsKashchenko, M. P.; Chashchina, V. G.
2016Inheritance of the Strain Tensor by a Driving Wave Process in the Region of Martensite Nucleation on an Example of Fe–Ni AlloysKashchenko, M. P.; Latypov, I. F.; Chashchina, V. G.
2019Initial Excited State and Divergence of Wave Beams as Factors Responsible for the Realization of the Wave Process that Controls the Growth of Transformation TwinsKashchenko, M. P.; Kashchenko, N. M.; Chashchina, V. G.
2013Key role of transformation twins in comparison of results of crystal geometric and dynamic analysis for thin-plate martensiteKashchenko, M. P.; Chashchina, V. G.
2003The lower temperature boundary of the onset of the formation of α-martensite upon cooling in iron-based alloysKashchenko, M. P.; Semenovykh, A. G.; Chashchina, V. G.
2008Mechanism of the FCC-BCC martensitic transformation with the fastest rearrangement of close-packed planes. II. Orientation relationshipsKashchenko, M. P.; Chashchina, V. G.
2008Mechanism of the fcc-bcc martensitic transformation with the fastest transformation of close-packed planes. I. the lattice parameter ratio and habitus planesKashchenko, M. P.; Chashchina, V. G.
2009A modified dynamic model of an FCC-HCP martensitic transformation without macroshearChashchina, V. G.
2015Morphological features in B2→B19 martensitic transformation and their description based on the concept of controlling wave processKashchenko, M. P.; Chashchina, V. G.
2013On the Applicability of the Concept of Control Wave Process to the B2→R Martensitic Transformation in B2 Titanium Nickelide AlloysKashchenko, M. P.; Chashchina, V. G.
2016Orientations of type II twin boundaries in B2→B19′ martensitic transformation in dynamic theoryKashchenko, M. P.; Chashchina, V. G.
2006Pairs of electronic states supporting the wave process of martensite crystal growthKashchenko, M. P.; Skorikova, N. A.; Chashchina, V. G.
2005Pairs of inversely occupied electronic states in the energy range best suited to wave generationSkorikova, N. A.; Chashchina, V. G.; Kashchenko, M. P.
2000Peierls stress for [ll2h](hhl) shear in the FCC latticeKashchenko, M. P.; Teplyakova, L. A.; Chashchina, V. G.
2015Possibility of wave control of the formation of twinned austenite in the process of the formation of bainitic ferriteKashchenko, M. P.; Chashchina, V. G.
2016Promising variants of initiation of martensitic γ–α transformation in iron alloys by a couple of elastic wavesKashchenko, M. P.; Chashchina, V. G.
2016Promising Versions of alpha-Martensite Rod-Like Crystal Initiation in Iron Alloys by Three Elastic Wave SourcesKashchenko, M. P.; Chashchina, V. G.
2018Screw Dislocations as Nucleation Centers of Twinned ε-Martensite Crystals with {443}α Habits in TitaniumKashchenko, M. P.; Kashchenko, N. M.; Chashchina, V. G.
2005Standard orientations of shear-band boundaries for HCP crystals in a cryston modelKashchenko, M. P.; Mal'tseva, O. A.; Chashchina, V. G.
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