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  1. No Access

    Article

    Selection of quenching conditions for the KhN56MBYuD alloy of electroslag remelting

    1. Heating the KhN56MBYuD alloy before quenching at 980–1180°C for 0.5–2 h helps dissolve the eutectic, increase...

    Yu. A. Bashnin, A. B. Korostelev in Metal Science and Heat Treatment (1993)

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    Effect of molecular mass of UZSP-1 medium on its cooling capacity

    1. The cooling capacity of UZSP-1 polymeric quenching medium is determined by the molecular mass (MM) of the cop...

    P. V. Sosnovskii, V. A. Olovyanishnikov, Yu. A. Bashnin in Metal Science and Heat Treatment (1991)

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    Article

    Using the computer to develop low-carbon economically alloyed high-strength steels

    1. Use of the computer to develop steel compositions is expedient only when methods of mathematical design are e...

    Yu. A. Bashnin, V. K. Galkin, Yu. V. Vasil'ev in Metal Science and Heat Treatment (1989)

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    Effect of cooling conditions in thermocyclic treatment on the crushing of austenitic steel grain

    1. The size of the austenite grain of 20Kh steel depends after TCT on the cooling rate from the temperature of t...

    Yu. A. Bashnin, L. A. Lisitskaya, L. P. Frantsuzova in Metal Science and Heat Treatment (1988)

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    Energy-saving technology for the preliminary heat treatment of large forgings

    Yu. A. Bashnin, É. B. Mernik in Metal Science and Heat Treatment (1988)

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    Article

    Strengthening grooved rolls on a skelp mill

    Yu. A. Bashnin, V. G. Kovalenko, G. D. Gabinskaya, N. M. Kolesnik in Metallurgist (1987)

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    Effect of chemical nonuniformity on the structure and properties of steel ÉI925

    Yu. A. Bashnin, N. V. Volkova, V. T. Gubenko, V. V. Martynyuk in Metallurgist (1986)

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    Influence of heating temperature on the plasticity of railroad wheel metal

    Heating of the carbon steel specimens at up to 400°C and holding for up to 60 min causes a decrease in hydrogen content in them and an increase in the indices of plasticity while not leading to a reduction in ...

    V. V. Ozimina, Yu. A. Bashnin, M. I. Staroseletskii in Metal Science and Heat Treatment (1986)

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    Effect of thermochemical treatment on the wear resistance of structural steels

    1. With an increase in steel alloying there is an increase in the optimum carbon content in the surface film of ...

    I. M. Rukina, Yu. A. Bashnin, V. L. Kozlov in Metal Science and Heat Treatment (1986)

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    Article

    Internal microstresses as a reason for the increase in the temperature of the start of the martensite transformation in electrolytic hydrogen impregnation of austenite

    I. M. Tkachenko, Yu. A. Bashnin in Soviet materials science : a transl. of Fi… (1985)

  11. No Access

    Article

    Effect of thermal cycling on the mechanical properties of steel 20Kh

    1. The newly devised method of thermal cycling including heating at the rate of 5 deg/min to Tu.Zm (5–10°C highe...

    Yu. A. Bashnin, L. A. Lisitskaya, L. M. Semenova in Metal Science and Heat Treatment (1985)

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    Article

    Method of calculating the hardenability of parts with complex shape

    N. N. Levin, Yu. A. Bashnin in Metal Science and Heat Treatment (1984)

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    Equations of heat condudtion for modeling the hardenability of large semiproducts with different dimensions

    N. N. Levin, Yu. A. Bashnin in Metal Science and Heat Treatment (1984)

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    Thermocycling carbonitriding of gears

    Yu. A. Bashnin, L. M. Semenova, O. S. Burenkova in Metal Science and Heat Treatment (1984)

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    Effect of electroslag remelting on the structure and properties of steel 9Kh2MF

    Yu. A. Bashnin, V. N. Isakina, L. I. Maslov in Metal Science and Heat Treatment (1982)

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    Article

    Influence of heat treatment on the strength and ductility of 85 spring steel

    1. A heat treatment for 85 spring steel (harden or normalize from 1000°C, reharden with heating to 840–870°C at ...

    Yu. A. Bashnin, L. A. Lisitskaya, E. S. Kuminov in Metal Science and Heat Treatment (1982)

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    Article

    Phase transformations during heating of cast and deformed alloy KhN62BMKTYu

    The sharp reduction of the fracture toughness of nickel alloys at temperatures exceeding the temperature at which the basic hardening γ′ phase goes into solution is due to the formation of micropores in the bo...

    Yu. A. Bashnin, E. A. Maslenkova, A. N. Kobylkin in Metal Science and Heat Treatment (1981)

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    Article

    Kinetics of decomposition of austenite in steel 9Kh2MF

    1. The stability of supercooled austenite in the pearlitic region does not depend on the melting procedure; in t...

    V. N. Isakina, Yu. A. Bashnin, A. B. Mostovoi in Metal Science and Heat Treatment (1980)

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    Low-carbon high-strength alloy steels of the martensitic class

    1. We investigated new high-strength low-carbon steel of the 15Kh3G3MF type with a good combination of mechanica...

    Yu. A. Bashnin, V. K. Galkin, V. M. Korovina in Metal Science and Heat Treatment (1980)

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    Calculating the temperature field in a load of large cylindrical pieces during cooling

    V. M. Korovina, V. A. Gurenko, Yu. A. Bashnin in Metal Science and Heat Treatment (1979)

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