Schemes for creating rationally directed stresses of contact friction in operations of compaction of preforms are suggested for lowering the residual porosity of powder parts and raising the efficiency of their subsequent heat treatment.
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A. M. Dmitriev, N. V. Korobova, and N. S. Tolmachev, “Experimental verification of results of computer simulation of stresses on a member of deforming tool,” Vestn. MGTU “Stankin,” No. 2(29), 44 – 49 (2014).
E. N. Sosenushkin, “Die forging of crystallizing metal,” Vestn. MGTU “Stankin,” No. 2(10), 12 – 20 (2010).
E. N. Sosenushkin, L. M. Ovechkin, and A. E. Sosenushkin, “Advancement of processes of severe plastic deformation,” Vestn. MGTU “Stankin,” No. 1(18), 22 – 25 (2012).
A. M. Dmitriev, F. V. Grechnikov, N. V. Korobova, and N. S. Tolmachev, “Practical aspects of changing the mechanical characteristics of structural carbon steels in cold die forging,” Vestn. MGTU “Stankin,” No. 4(31), 41 – 44 (2014).
B. S. Vekshin, E. G. Knizhnik, V. S. Kraposhin, et al., “Compaction of powder magnets from Smo5 by cold deformation,” Poroshk. Metall., No. 11(55), 66 – 71 (1975).
B. S. Vekshin and V. S. Kraposhin, One Kind of Cool Liquid Powder Mechanical Press-Forming Apparatus, Patent CN 101791876, invention 07.12.2011.
E. N. Sosenushkin, A. S. Ponomarev, A. E. Artes, and V. N. Klimov, “Effect of pressure treatment on the microstructure and quality of articles from high-strength cast iron,” Vestn. MGTU “Stankin,” No. 3(15), 115 – 120 (2011).
I. D. Radomysel’skii, G. G. Serdyuk, and N. I. Shcherban’, Structural Powder Materials [in Russian], Tekhnika, Kiev (1985), 152 p.
S. S. Ermakov and N. F. Vyaznikov, Ceramic-Metal Parts in Mechanical Engineering [in Russian], Machinostroenie, Moscow (1875), 231 p.
S. G. Napara-Volgina, L. N. Kostyrko, and I. D. Radomysel’skii, “Heat and thermomechanical treatment of powder structural steels,” Poroshk. Metall., No. 10, 49 – 67 (1983).
Yu. G. Dorofeev, L. G. Marinenko, and V. I. Ustimenko, Structural Powder Materials and Articles [in Russian], Metallurgiya, Moscow (1986), 144 p.
A. M. Dmitriev (ed.), Forging and Stamping, A Manual in 4 Vols, Vol. 3, Cold Die Forging. Forming of Metallic Powders [in Russian], Mashinostroenie, Moscow (2010), 352 p.
A. G. Suslov, B. M. Bazrov, V. F. Bez’yazychnyi, et al., High Technologies in Machine Building, Chapter 3. High Technologies in the Production of Preforms by Pressure Treatment [in Russian], Mashinostroenie, Moscow (2012), 528 p.
G. M. Volkogon, A. M. Dmitriev, E. P. Dobryakov, et al., Advanced Processes of Die Forging of Parts from Powders and the Equipment [in Russian], Mashinostroenie (1991), 320 p.
A. M. Dmitriev, F. V. Grechnikov, and N. V. Korobova, Special Forging Equipment and Choice of Process Parameters [in Russian], Izd. Samarsk. Nauch. Tsentra RAN, Samara (2016), 334 p.
A. M. Dmitriev, N. V. Korobova, and M. D. Petrov, “Development of the process of production of hydraulic cylinder body from iron powder,” MGTU “Stankin,” No. 1(28), 54 – 58 (2014).
A. M. Dmitriev, F. V. Grechnikov, N. V. Korobova, and A. Yu. Aksenov, “Creation of rational dominant orientation of grains in layers of powder preforms formed with shifts,” Vestn. MGTU “Stankin,” No. 1(32), 13 – 20 (2015).
N. V. Korobova and M. D. Petrov. “Use of DEFORM 3D software for studying cold extrusion of nozzles from sintered powder preforms,” Kuzn.-Shtamp. Proizvod., Obrab. Mater. Davl., No. 4, 25 – 27 (2013).
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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 7, pp. 46 – 53, July, 2018.
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Dmitriev, A.M., Korobova, N.V. A Study of Advanced Processes for Large-Scale Production of Parts from Powder Steels. Met Sci Heat Treat 60, 457–463 (2018). https://doi.org/10.1007/s11041-018-0301-7
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DOI: https://doi.org/10.1007/s11041-018-0301-7