Low temperature peculiarities of plastic deformation in titanium and its alloys VA Moskalenko, VI Startsev, VN Kovaleva Cryogenics 20 (9), 503-508, 1980 | 85 | 1980 |
Barrier parameters and statistics controlling the plasticity of Ti‒O solid solutions in the temperature range 20–550 K VN Kovaleva, VA Moskalenko, VD Natsik Philosophical Magazine A 70 (3), 423-438, 1994 | 69 | 1994 |
High-temperature superconductivity and the characteristics of the electronic energy spectrum VA Moskalenko, ME Palistrant, VM Vakalyuk Soviet Physics Uspekhi 34 (8), 717, 1991 | 62 | 1991 |
Temperature effect on formation of reorientation bands in α-Ti VA Moskalenko, AR Smirnov Materials Science and Engineering: A 246 (1-2), 282-288, 1998 | 57 | 1998 |
Cryomechanically obtained nanocrystalline titanium: microstructure and mechanical properties VA Moskalenko, AR Smirnov, AV Moskalenko Low Temperature Physics 35 (11), 905-907, 2009 | 50 | 2009 |
Nanocrystalline titanium produced by the cryomechanic method: microstructure and mechanical properties VA Moskalenko, AP Smirnov, AV Moskalenko Fizika Nizkikh Temperatur 35 (11), 1160-1164, 2009 | 47 | 2009 |
Fundamentals of titanium nanocrystalline structure creation by cryomechanical grain fragmentation VA Moskalenko, AR Smirnov, YM Plotnikova, IS Braude, RV Smolianets Materials Science and Engineering: A 700, 707-713, 2017 | 31 | 2017 |
The role of Peierls relief in the low-temperature plasticity of pure α‐Ti VA Moskalenko, VD Natsik, VN Kovaleva Low temperature physics 31 (10), 907-914, 2005 | 29 | 2005 |
Low-temperature plastic deformation and strain-hardening of nanocrystalline titanium VA Moskalenko, AR Smirnov, RV Smolyanets Low temperature physics 40 (9), 837-845, 2014 | 28 | 2014 |
Dispersed barrier hardening and thermally activated deformation in α-titanium VA Moskalenko, VN Puptsova Materials Science and Engineering 16 (3), 269-276, 1974 | 28 | 1974 |
Нанокристаллический титан, полученный криомеханическим методом: микроструктура и механические свойства ВА Москаленко, АР Смирнов Физика низких температур, 2009 | 27 | 2009 |
Mechanical properties and structural features of nanocrystalline titanium produced by cryorolling VA Moskalenko, VI Betekhtin, BK Kardashev, AG Kadomtsev, AR Smirnov, ... Physics of the Solid State 56, 1590-1596, 2014 | 26 | 2014 |
Staged work hardening of polycrystalline titanium at low temperatures and its relation to substructure evolution VA Moskalenko, AR Smirnov, VN Kovaleva, VD Natsik Low Temperature Physics 28 (12), 935-941, 2002 | 23 | 2002 |
Correlation between substructure and mechanical properties of α-Ti at varying deformation temperatures 4.2–373 K AR Smirnov, VA Moskalenko Materials Science and Engineering: A 327 (2), 138-143, 2002 | 22 | 2002 |
Inertial effects in plasticity of {alpha}-titanium at low temperatures up to 0.5 K.; Inertsionnye ehffekty v plastichnosti {alpha}-titana pri nizkikh temperaturakh do 0, 5 K. VA Moskalenko, VN Kovaleva, VD Natsik, VV Pustovalov, SE Shumilin Fizika Nizkikh Temperatur 22, 1996 | 22 | 1996 |
Inertial effects in plasticity of α-titanium at low temperatures down to 0.5 K VA Moskalenko, VN Kovaleva, VD Natsik, VV Pustovalov, SE Shumilin Low Temperature Physics 22 (12), 1108-1116, 1996 | 21 | 1996 |
Quality of surface treatment and plastic deformation of titanium alloys at 2.5 to 293 K VN Kovaleva, VA Moskalenko Cryogenics 29 (10), 1002-1005, 1989 | 19 | 1989 |
Low temperature anomalies of Ti plasticity resulting from inertial properties of dislocation motion VA Moskalenko, VD Natsik, VN Kovaleva Materials Science and Engineering: A 309, 173-177, 2001 | 17 | 2001 |
Механические свойства и структурные особенности нанокристаллического титана, полученного при криопрокатке ВА Москаленко, ВИ Бетехтин, БК Кардашев, АГ Кадомцев, ... Физика твердого тела 56 (8), 1539-1545, 2014 | 16 | 2014 |
Micromechanical properties of nanocrystalline titanium obtained by cryorolling LS Fomenko, AV Rusakova, SV Lubenets, VA Moskalenko Low Temperature Physics 36 (7), 645-652, 2010 | 16 | 2010 |