Conclusions
On the basis of results of investigations and laboratory tests, a composite material produced by hard facing with a charge consisting of tungsten carbide particles and a Ni-Cr-B-Si alloy has been chosen as the most suitable for the surface reinforcement of parts operating under intense abrasive-gas wear conditions. To improve the processing qualities of such a charge, a flux should be added to it. The recommended charge composition for induction hard facing is: Relit 56–61%, PG-KhN80SR4 alloy powder 33–38%, boric anhydride 2.8–3%, dehydrated borax 1.5–1.6%, and silicocalcium 1.7–1.0%. Charges of this composition are being used for hard facing various parts of metallurgical plant units (small bells and charge distribution hoppers, valves of blast furnace charging devices, blades of sintering machines, and the like).
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S. Ya. Pirogov, I. N. Sheenko, N. G. Gavrilenko, et al., “Charge for high frequency-current hard facing,” Inventor's Certificate No. 421460, Aug. 6, 1974.
I. N. Sheenko, S. Ya. Pirogov, N. G. Chemeris, et al., “Induction hard facing with a composite alloy based on cast tungsten carbide,” Svarochn. Proizv., No. 6, 38–44 (1974).
S. Ya. Pirogov, V. F. Sokolov, I. I. Markov, et al., “Surface reinforcement of parts of blast furnace installations by induction hard facing,” Svarochn. Proizv., No. 6, 48–56 (1974).
N. Yu. Ikornikova, in: Microhardness [in Russian], Izd. Akad. Nauk SSSR, Moscow (1951).
R. B. Kotel'nikov, Author's Abstract of Candidate's Dissertation, Mintsvetzoloto, Moscow (1956).
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Translated from Poroshkovaya Metallurgiya, No. 10(178), pp. 92–98, October, 1977.
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Pirogov, S.Y., Sheenko, I.N., Markov, I.I. et al. Hard facing alloys obtained from charges containing refractory compounds. Powder Metall Met Ceram 16, 814–819 (1977). https://doi.org/10.1007/BF00793596
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DOI: https://doi.org/10.1007/BF00793596