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Publications in Math-Net.Ru |
Citations |
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2021 |
1. |
G. A. Malygin, “Model of formation of discrete dislocations of the thermoelastic martensitic transformation”, Fizika Tverdogo Tela, 63:2 (2021), 272–276 ; Phys. Solid State, 63:2 (2021), 308–312 |
2. |
G. A. Malygin, “Stabilization of martensite on nanoprecipitates and kinetics of explosive martensite transition”, Fizika Tverdogo Tela, 63:1 (2021), 96–102 ; Phys. Solid State, 63:1 (2021), 94–100 |
3. |
G. A. Malygin, “Dislocation-induced dispersion of nanoparticles as a reason for the cyclic functional instability of Ni–Fe–Ga–Co alloys”, Zhurnal Tekhnicheskoi Fiziki, 91:4 (2021), 643–648 ; Tech. Phys., 66:4 (2021), 630–634 |
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2020 |
4. |
G. A. Malygin, B. I. Levandovskii, R. B. Timashov, V. M. Krymov, V. I. Nikolaev, “Specific features of deformation of Ni–Fе–Ga–Co single crystals grown from melt by the Stepanov method”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:14 (2020), 3–5 ; Tech. Phys. Lett., 46:7 (2020), 677–679 |
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5. |
G. A. Malygin, V. I. Nikolaev, V. M. Krymov, A. V. Soldatov, “The influence of heat treatment on the deformation properties of Ni$_{49}$Fe$_{18}$Ga$_{27}$Co$_{6}$ alloy crystals compressed in the [011] axis direction”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 46:6 (2020), 7–10 ; Tech. Phys. Lett., 46:3 (2020), 260–262 |
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2019 |
6. |
G. A. Malygin, “The mechanism of influence of disperse nanoparticles on parameters of the martensitic transitions in alloys with the shape memory effect”, Fizika Tverdogo Tela, 61:11 (2019), 2110–2115 ; Phys. Solid State, 61:11 (2019), 2083–2089 |
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7. |
G. A. Malygin, “Analysis of size effects during martensitic transitions in epitaxial films and microparticles of the Ni–Mn–Sn alloy”, Fizika Tverdogo Tela, 61:7 (2019), 1310–1317 ; Phys. Solid State, 61:7 (2019), 1251–1258 |
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8. |
G. A. Malygin, “Mechanism of influence of nanocrystal sizes on the parameters of the curves of the pseudoelastic and thermoelastic deformations of alloys with the shape memory effect”, Fizika Tverdogo Tela, 61:2 (2019), 288–295 ; Phys. Solid State, 61:2 (2019), 149–156 |
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9. |
G. A. Malygin, V. I. Nikolaev, V. M. Krymov, S. A. Pul'nev, S. I. Stepanov, “Interfacial stresses and anomalous shape of pseudoelastic deformation curves in Ni$_{49}$Fe$_{18}$Ga$_{27}$Co$_{6}$ alloy crystals compressed along the [011]$_{A}$ axis”, Zhurnal Tekhnicheskoi Fiziki, 89:6 (2019), 873–881 ; Tech. Phys., 64:6 (2019), 819–827 |
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10. |
G. A. Malygin, V. I. Nikolaev, S. A. Pul'nev, “Effect of HfO$_{2}$ nanoparticles on the shape and parameters of pseudoelastic stress–strain curves of Cu–Al–Ni alloy single crystals”, Zhurnal Tekhnicheskoi Fiziki, 89:1 (2019), 132–136 ; Tech. Phys., 64:1 (2019), 106–110 |
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2018 |
11. |
G. A. Malygin, “Mechanism of the influence of poly- and nanocrystallinity on the parameters of pseudoelastic deformation curves of alloys with the shape memory effect”, Fizika Tverdogo Tela, 60:10 (2018), 1990–1994 ; Phys. Solid State, 60:10 (2018), 2034–2038 |
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12. |
G. A. Malygin, “Mechanism of plastic collapse of nanosized crystals with BCC lattice under uniaxial compression”, Fizika Tverdogo Tela, 60:6 (2018), 1232–1237 ; Phys. Solid State, 60:6 (2018), 1244–1249 |
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2017 |
13. |
G. A. Malygin, O. V. Klyavin, “The size effects upon shock plastic compression of nanocrystals”, Fizika Tverdogo Tela, 59:10 (2017), 1964–1969 ; Phys. Solid State, 59:10 (2017), 1987–1992 |
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14. |
G. A. Malygin, “Mechanism of decrease in the strength of submicron-sized specimens of FCC metals with a nanocrystalline structure”, Fizika Tverdogo Tela, 59:2 (2017), 312–317 ; Phys. Solid State, 59:2 (2017), 321–326 |
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15. |
G. A. Malygin, V. I. Nikolaev, S. A. Pul'nev, A. V. Chikiryaka, “Interfacial stresses and the anomalous character of thermoelastic-deformation curves of a Cu–Al–Ni shape-memory alloy”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:24 (2017), 39–45 ; Tech. Phys. Lett., 43:12 (2017), 1109–1111 |
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2016 |
16. |
G. A. Malygin, V. I. Nikolaev, A. I. Averkin, A. P. Zograf, “Anomalous behavior of curves of pseudo-elastic deformation of Ni–Fe–Ga–Co alloy crystals as a result of interphase stresses”, Fizika Tverdogo Tela, 58:12 (2016), 2400–2405 ; Phys. Solid State, 58:12 (2016), 2488–2493 |
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17. |
V. I. Nikolaev, P. N. Yakushev, G. A. Malygin, A. I. Averkin, S. A. Pul'nev, G. P. Zograf, S. B. Kustov, Yu. I. Chumlyakov, “Influence of partial shape memory deformation on the burst character of its recovery in heated Ni–Fe–Ga–Co alloy crystals”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 42:8 (2016), 18–27 ; Tech. Phys. Lett., 42:4 (2016), 399–402 |
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2011 |
18. |
G. A. Malygin, “Strength and plasticity of nanocrystalline materials and nanosized crystals”, UFN, 181:11 (2011), 1129–1156 ; Phys. Usp., 54:11 (2011), 1091–1116 |
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2001 |
19. |
G. A. Malygin, “Diffuse martensitic transitions and the plasticity of crystals with a shape memory effect”, UFN, 171:2 (2001), 187–212 ; Phys. Usp., 44:2 (2001), 173–197 |
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1999 |
20. |
G. A. Malygin, “Dislocation self-organization processes and crystal plasticity”, UFN, 169:9 (1999), 979–1010 ; Phys. Usp., 42:9 (1999), 887–916 |
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1992 |
21. |
G. A. Malygin, “Prismatic dislocation loop distribution over the cross section of annihilation channels in crystals deformed after neutron irradiation”, Fizika Tverdogo Tela, 34:11 (1992), 3605–3607 |
22. |
G. A. Malygin, “Effect of hydrostatic pressure on the screw dislocation annihilation by lateral glide in alkali halide crystals”, Fizika Tverdogo Tela, 34:10 (1992), 3200–3211 |
23. |
G. A. Malygin, “Screw dislocation annihilation by lateral glide as a dynamic relaxation mechanism”, Fizika Tverdogo Tela, 34:9 (1992), 2882–2892 |
24. |
G. A. Malygin, “Anomalous Portevin-Le Chatelier effect in the segregation of interstitial and substitutional impurities on dislocations”, Fizika Tverdogo Tela, 34:8 (1992), 2356–2366 |
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1991 |
25. |
G. A. Malygin, “Formation of cellular dislocation structures in polycrystal and finely dispersed materials”, Fizika Tverdogo Tela, 33:11 (1991), 3267–3274 |
26. |
G. A. Malygin, “Relay mechanism of dislocation-free and defect-free channel formation in crystals under plastic deformation”, Fizika Tverdogo Tela, 33:6 (1991), 1855–1859 |
27. |
G. A. Malygin, “Kinetic mechanism of formation of defect-free channels under plastic deformation of irradiated and hardened crystals”, Fizika Tverdogo Tela, 33:4 (1991), 1069–1076 |
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1990 |
28. |
G. A. Malygin, “Kinetic mechanism of annihilation channel formation in the dislocation structure of deformed crystals”, Fizika Tverdogo Tela, 32:11 (1990), 3253–3258 |
29. |
G. A. Malygin, “Kinetic mechanism of kink band formation under plastic deformation”, Fizika Tverdogo Tela, 32:4 (1990), 1102–1107 |
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1989 |
30. |
G. A. Malygin, “Cell fission kinetics in a cellular dislocation structure”, Fizika Tverdogo Tela, 31:9 (1989), 298–300 |
31. |
G. A. Malygin, “Kinetic mechanism of formation of disoriented cell dislocation structures”, Fizika Tverdogo Tela, 31:7 (1989), 43–48 |
32. |
G. A. Malygin, “Kinetic mechanism of formation of periodic dislocation structures”, Fizika Tverdogo Tela, 31:1 (1989), 175–180 |
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1988 |
33. |
G. A. Malygin, “Coefficiently of screw dislocation diffusion by double cross glide”, Fizika Tverdogo Tela, 30:10 (1988), 3174–3177 |
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1987 |
34. |
G. A. Malygin, “Annihilation coefficient of screw dislocations”, Fizika Tverdogo Tela, 29:7 (1987), 2067–2072 |
35. |
G. A. Malygin, “Heat domains and the low temperature instability of plastic deformation of crystals”, Fizika Tverdogo Tela, 29:6 (1987), 1633–1639 |
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36. |
G. A. Malygin, “Дислокации, квантовые вихри, космические струны”, UFN, 902–908 |
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Organisations |
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