Пошуковий запит: (<.>A=Koval Yu$<.>) |
Загальна кількість знайдених документів : 28
Представлено документи з 1 до 20
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| 1. |
Likhachov O. A. Effect of twin microstructure on the magnetization behaviour of NiMnGa ferromagnetic shape memory alloys // Metallophysics and Advanced Technologies. - 2020. - 42, № 3.
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| 2. |
Kedrovskyi S. Martensitic transformation in quenched Hf - Nb alloys // Metallophysics and Advanced Technologies. - 2020. - 42, № 5.
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| 3. |
Cherepanska I. Artificial neural network as a part of intelligent precise goniometric system for analysis of spectral distribution intensity and definition of chemical composition of metal-containing substances // Metallophysics and Advanced Technologies. - 2020. - 42, № 10.
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| 4. |
Koval Yu. M. Features of structure formation, kinetics of phase transformations, mechanical and tribological properties of the Fe-based Cr - Mn - Ni alloys // Progress in Physics of Metals. - 2020. - 21, № 2.
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| 5. |
Koval Yu. V. Features of structural inhomogeneities in doped cadmium antimonide crystals // Фізика і хімія твердого тіла. - 2017. - 18, № 3.
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| 6. |
Likhachev A. A. Magnetomechanical effects in the elastic polymer composites containing ferromagnetic powder particles // Metallophysics and Advanced Technologies. - 2018. - 40, № 9.
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| 7. |
Cherepanska I. Intelligent precise goniometric system of analysis of spectral distribution intensities for definition of chemical composition of metal-containing substances // Metallophysics and Advanced Technologies. - 2019. - 41, № 2.
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| 8. |
Likhachev O. A. Simple relationships for some three-parameter interatomic-potential models for the interactions between the chemically-different types' atoms // Metallophysics and Advanced Technologies. - 2023. - 45, № 1.
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| 9. |
Firstov G. S. Development of high-entropy shape-memory alloys: structure and properties // Progress in Physics of Metals. - 2023. - 24, № 4.
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| 10. |
Koval Yu. M. The relationship between chemical composition of the alloy and the parameters of the martensitic transformation in NiTi alloys // Metallophysics and Advanced Technologies. - 2023. - 45, № 11.
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| 11. |
Koval Yu. M. Forecast and control of structure and properties of ultra-low-carbon steels // Metallophysics and Advanced Technologies. - 2021. - 43, № 6.
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| 12. |
Shelyagin V. Laser welding of Ti - Ni shape memory alloy for medical application // Metallophysics and Advanced Technologies. - 2021. - 43, № 3.
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| 13. |
Koval Yu. M. Regularities of formation of structure, phase composition and properties of chromium - manganese alloys in the initial cast state during the process of friction wear // Metallophysics and Advanced Technologies. - 2021. - 43, № 3.
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| 14. |
Kedrovskyi S. Computational methods for determining martensitic transformation characteristics in binary and multicomponent functional materials // Metallophysics and Advanced Technologies. - 2021. - 43, № 4.
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| 15. |
Sezonenko A. The Evolution of the Structure and Mechanical Properties Near Glass Transition Temperature in (Ti, Hf, Zr)(Ni, Cu)-Based Shape-Memory Melt-Spun Ribbons. — 2003 // Металлофизика и новейшие технологии.
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| 16. |
Bubley I. R. <$E bold {beta sub 1~symbol О~gamma prime} > transformation in Cu - Al - Mn - Co alloys. — 2001 // Металлофизика и новейшие технологии.
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| 17. |
Koval Yu. N. Martensitic transformation in NiAlGa alloys. — 2009 // Металлофизика и новейшие технологии.
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| 18. |
Firstov G. S. Shape memory effect driven by diffusionless and diffusional transformations at elevated temperatures. — 2002 // Успехи физики металлов.
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| 19. |
Koval Yu. N. Gradient functional materials with phase transformations. — 2001 // Металлофизика и новейшие технологии.
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| 20. |
Slipchenko V. N. Influence of casting technology on the phase transformation in NiTi-based alloys. — 2001 // Металлофизика и новейшие технологии.
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