Abstract
The deformation behavior and the properties of copper alloyed with chromium and zirconium (0.04–0.14 wt %) are studied during high-rate deformation (~105 s–1) by dynamic channel angular pressing (DCAP). The sequence of the decomposition of the α solid solution of copper accompanied by the precipitation of second-phase nanoparticles and recrystallization in annealing (aging) is determined. The influence of DCAP and aging on the mechanical and physical properties of the copper alloys is investigated.
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V. V. Rybin, Severe Plastic Deformation and Fracture of Metals (Metallurgiya, Moscow, 1986).
V. M. Segal, V. I. Reznikov, V. I. Kopylov, D. A. Pavlik, and V. F. Malyshev, Processes of Plastic Structure Formation in Metals (Nauka i Tekhnika, Minsk, 1994).
R. Z. Valiev and I. V. Aleksandrov, Bulk Nanostructured Metallic Materials: Manufacture, Structure, and Properties (IKTs Akademkniga, Moscow, 2007).
T. G. Langdon, M. Furukawa, M. Nemoto, and Z. Horita, “Using equal-channel angular pressing for refining grain size,” JOM 52, 30–33 (2000).
A. M. Glezer and V. E. Gromov, Nanomaterials Created by Extreme Actions (Inter-Kuzbass, Novokuznetsk, 2010).
A. Vinogradov, V. Patlan, Y. Suzuki, K. Kitagawa, and V. I. Kopylov, “Structure and properties of ultra-fine grain Cu–Cr–Zr alloy produced by equal channel angular pressing,” Acta Materialia 50, 1639–1651 (2002).
R. R. Mulyukov, A. A. Nazarov, and R. M. Imaev, “Deformation methods of nanostructuring of materials: prerequisites, history, state of the art, and prospects,” Izv. Vyssh. Uchebn. Zaved., Fiz., No. 5, 47–59 (2008).
S. V. Dobatkin, D. V. Shangina, N. R. Bochvar, and M. Janechek, “Effect of deformation schedules and initial states on structure and properties of Cu–0.18 Zr alloys after high-pressure torsion and heating,” Mater. Sci. Eng. A 598, 288–292 (2014).
E. V. Shorokhov, I. N. Zhgilev, and R. Z. Valiev, “Method of dynamic treatment of materials,” RF Patent 2283717, Byull. Izobret., No. 26, 64 (2006).
V. I. Zel’dovich, E. V. Shorokhov, N. Yu. Frolova, I.N. Zhgilev, A. E. Kheifets, I. V. Khomskaya, and V. M. Gundyrev, “High-strain-rate deformation of titanium using dynamic equal-channel angular pressing,” Phys. Met. Metallogr. 105 (4), 402–408 (2008).
I. G. Brodova, E. V. Shorokhov, I. G. Shirinkina, I. N. Zhgilev, T. I. Yablonskikh, V. V. Astaf’ev, and O. V. Antonova, “Evolution of the structure formation during dynamic pressing of the AMts alloy,” Phys. Met. Metallogr. 105 (6), 594–601 (2008).
I. V. Khomskaya, V. I. Zel’dovich, E. V. Shorokhov, N. Yu. Frolova, I. N. Zhgilev, and A. E. Kheifets, “Structure formation in copper during dynamic channel angular pressing,” Phys. Met. Metallogr. 105 (6) 586–593 (2008).
E. V. Shorokhov, I. N. Zhgilev, I. V. Khomskaya, I. G. Brodova, V. I. Zel’dovich, N. Yu. Frolova, A. E. Kheifets, I. G. Shirinkina, and V. V. Astaf’ev, “High-strain-rate deformation of metals during equalchannel angular pressing for production of ultrafinegrained structures,” Deform. Razr. Mater., No. 2, 36–41 (2009).
I. V. Khomskaya, E. V. Shorokhov, V. I. Zel’dovich, A. E. Kheifets, N. Yu. Frolova, A. V. Abramov, P. A. Nasonov, and I. V. Minaev, “Application of dynamic channel angular pressing for the manufacture of nanostructured copper and brass,” Deform. Razr. Mater., No. 1, 17–24 (2012).
I. G. Brodova, A. N. Petrova, S. V. Razorenov, O. P. Plekhov, and E. V. Shorokhov, “Deformation behavior of submicrocrystalline aluminum alloys under dynamic loading conditions,” Deform. Razr. Mater., No. 11, 27–33 (2015).
V. I. Zel’dovich, I. V. Khomskaya, N. Yu. Frolova, A. E. Kheifets, E. V. Shorokhov, and P. A. Nosonov, “Structure of chromium–zirconium bronze subjected to dynamic channel-angular pressing and aging,” Phys. Met. Metallogr. 114 (5) 411–418 (2013).
I. V. Khomshaya, V. I. Zel’dovich, A. E. Kheifets, N. Yu. Frolova, V. P. Dyakina, and V. A. Kazantsev, “Evolution of the structure upon heating of submicrocrystalline and nanocrystalline copper produced by high-strain-rate deformation,” Phys. Met. Metallogr. 111 (4) 362–369 (2011).
O. E. Ocintsev and V. N. Fedorov, Copper and Copper Alloys. Russian and Foreign Grades: A Handbook (Mashinostroenie, Moscow, 2004).
A. K. Nikolaev and V. M. Rozenberg, Alloys for Contact Welding Electrodes (Metallurgiya, Moscow, 1978).
R. K. Islamgaliev, K. M. Nesterov, and R. Z. Valiev, “Structure, strength, and electrical conductivity of a Cu–Cr copper-based alloy subjected to severe plastic deformation,” Phys. Met. Metallogr. 116 (2) 209–218 (2015).
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Original Russian Text © I.V. Khomskaya, V.I. Zel’dovich, E.V. Shorokhov, N.Yu. Frolova, A.E. Kheifets, V.P. Dyakina, 2017, published in Deformatsiya i Razrushenie Materialov, 2017, No. 4, pp. 22–29.
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Khomskaya, I.V., Zel’dovich, V.I., Shorokhov, E.V. et al. Effect of high-rate deformation on the structure, the properties, and the thermal stability of copper alloyed with chromium and zirconium. Russ. Metall. 2017, 851–857 (2017). https://doi.org/10.1134/S003602951710010X
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DOI: https://doi.org/10.1134/S003602951710010X