Abstract
The mechanical properties and structure of low-carbon nickel-molybdenum steel wire rod after softening thermomechanical treatment in a high-speed wire mill are studied. Dislocations may move through insular martensite and bainite sections of the structure under the action of deformation. Good plasticity of wire rod in deformational shaping may be ensured by the presence of a small proportion (up to 10%) of sections with bainite-martensite structure and the motion of dislocations through those sections.
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Parusov, V.V., Sychkov, A.B., Lutsenko, V.A., et al., Softening Thermomechanical Treatment of Carbon Steel Wire Rod, Metallurg. Gornorud. Prom., 2003, no. 6, pp. 54–56.
Nesterenko, A.M., Sychkov, A.B., and Zhukova, S.Yu., Causes of Failure in Drawing CB-08Γ2C Wire Rod, Metallurg. Gornorud. Prom., 2006, no. 6, pp. 60–63.
Golovanenko, S.A. and Fonshtein, N.M., Dvukhfaznye nizkolegirovannye stali (Two-Phase Low-Alloy Steel), Moscow: Metallurgiya, 1986.
Lutsenko, V.A., Parusov, V.V., Polyakov, V.A., et al., Introduction of the Production of Heat-Treated Low-Sulfur Alloy-Steel Wire Rod for Welding Wire at the Krivorozhstal’ Plant, Metallurg. Gornorud. Prom., 2004, no. 3, pp. 68–71.
Lutsenko, V.A., Sivak, A.I., and Zhuravlev, I.I., Thermomechanical Treatment of Alloy-Steel Wire Rod for Welding Wire in the 150–1 Wire Mill at the Krivorozhstal’ Plant, Metalozn. Obrob. Met., 2005, no. 3, pp. 27–29.
Zav’yalov, A.S., Teplukhin, G.I., and Gabeev, K.V., Formation of Unstructured Martensite (Hardenite), Metallov. Term. Obrab. Met., 1979, no. 10, pp. 11–12.
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Original Russian Text © V.A. Lutsenko, 2012, published in “Stal’,” 2012, No. 9, pp. 88–90.
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Lutsenko, V.A. Structure and properties of nickel-molybdenum steel wire rod after thermomechanical treatment. Steel Transl. 42, 730–732 (2012). https://doi.org/10.3103/S0967091212100075
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DOI: https://doi.org/10.3103/S0967091212100075