Conclusions
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1.
The addition of vanadium and titanium favors greater explosive hardening of steel 110G13L.
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2.
The depth of hardening decreases with increasing alloying of the matrix and with increasing numbers of hard dispersed particles formed after alloying with vanadium and titanium, which is due to greater scattering of the energy and the shock wave as it passes into the depth of the metal.
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Literature cited
V. I. Dovgopol, É. Ya. Sidel'kovskii, and A. A. Medvedev, Increasing the Wear Resistance of Steel G13L [in Russian], Technical Sheet No. 212–213, TsBTI, Sverdlovsk (1968), pp. 2–7.
V. V. Blyukher et al., "Fine structure of steel 110G13L with titanium and vanadium," in: Increasing the Wear Resistance of Parts of Steel 110G13L by Alloying with Vanadium and Modification with Titanium [in Russian], Sverdlovsk (1969), pp 11–12.
V. I. Vlasov and E. F. Komolova Cast High-Manganese Steel [in Russian], Mashgiz, Moscow (1963), pp. 49–51.
Additional information
Eastern Scientific-Research Mining Institute. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 3, pp. 51–53, March, 1975.
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Matveev, Y.G., Bukhtin, V.S. & Tarasko, D.I. Hardening during explosive shock loading of steel 110G13L alloyed with vanadium and modified with titanium. Met Sci Heat Treat 17, 237–239 (1975). https://doi.org/10.1007/BF00663691
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DOI: https://doi.org/10.1007/BF00663691