Issues »  Volume 9, Issue 4

On V. N. Gridnev’s and V. D. Sadovskiy’s Contribution to Development of Works in the Field of Phase and Structural Transformations in Steels and Alloys under Nonequilibrium Conditions

S. P. Oshkadyorov

G.V. Kurdyumov Institute for Metal Physics, NAS of Ukraine, 36 Academician Vernadsky Blvd., UA-03142 Kyiv, Ukraine

Received: 05.05.2008. Download: PDF

An important requirement applied to construction materials of mass use is their reliability in a product, provided by optimization of their strength and plasticity properties, and economy and ecological cleanness of their treatment technological processes. The solution of this problem within the framework of the single complex of the organizational and technical activities is possible only on the basis of a deep scientific research of internal nature of metal, principles of the metal-structure formation during all technological operations of metal fabrication and connection of this structure with properties of the finished product.

Keywords: phase and structural transformations, thermal treatment, constructional materials, strength, plasticity, micro- and macrostresses.

PACS: 01.60.+q, 01.65.+g, 81.05.Bx, 81.20.-n, 81.30.-t, 81.40.-z, 81.70.-q

DOI: https://doi.org/10.15407/ufm.09.04.423

Citation: S. P. Oshkadyorov, On V. N. Gridnev’s and V. D. Sadovskiy’s Contribution to Development of Works in the Field of Phase and Structural Transformations in Steels and Alloys under Nonequilibrium Conditions, Usp. Fiz. Met., 9, No. 4: 423—450 (2008) (in Russian), doi: 10.15407/ufm.09.04.423

References (11)  
  1. V. N. Gridnev, Yu. Ya. Meshkov, V. I. Trefilov, S. P. Oshkaderov, Fizicheskie osnovy elektrotermicheskogo uprochneniya stali (Kiev: Naukova dumka: 1973).
  2. V. N. Gridnev, Yu. Ya. Meshkov, S. P. Oshkaderov, N. F. Chernenko, Tekhnologicheskie osnovy elektrotermicheskoy obrabotki stali (Kiev: Naukova dumka: 1977).
  3. V. D. Sadovskiy, Strukturnaya nasledstvennost' v stali [Structural heredity in steel] (Moskva: Metallurgiya: 1973).
  4. S. A. Astapchik, Termokinetika rekristallizatsii [Thermocinetics of recrystallization] (Minsk: Nauka i tekhnika: 1968).
  5. A. I. Gordienko, A. A. Shipko, Strukturnye i fazovye prevrashcheniya v titanovykh splavakh pri bystrom nagreve [Structural and phase transformations in titanium alloys with rapid heating] (Minsk: Nauka i tekhnika: 1976).
  6. S. A. Astapchik, N. M. Bodyako, Elektrotermoobrabotka splavov s osobymi svoystvami [Electrothermal treatment of alloys with special properties] (Minsk: Nauka i tekhnika: 1977).
  7. Yu. Ya. Meshkov, Fizicheskie osnovy razrusheniya stal'nykh konstruktsiy [The physical basis for the destruction of steel structures] (Kiev: Naukova dumka: 1981).
  8. Yu. Ya. Meshkov, G. A. Pakharenko, Struktura metalla i khrupkost' stal'nykh izdeliy [Structure of metal and brittleness of steel products] (Kiev: Naukova dumka: 1985).
  9. P. N. Belyanin, Promyshlennye roboty [Industry robots] (Moskva: Mashinostroitel': 1975).
  10. P. N. Belyanin, Gibkie proizvodstvennye kompleksy [Flexible production complexes] (Moskva: Mashinostroitel': 1984).
  11. V. N. Gridnev, O. M. Ivasishin, S. P. Oshkaderov, Fizicheskie osnovy skorostnogo termouprochneniya titanovykh splavov [Physical basis of high-speed thermal hardening of titanium alloys] (Kiev: Naukova dumka: 1986).
Cited By (1)
  1. S. P. Oshkadyorov, Usp. Fiz. Met. 12, 269 (2011).

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