Направление: "Механика новых материалов, в том числе наноматериалов", научн. руководитель - проф., докт. физ.-мат. наук И.А. Овидько


Полноформатные статьи, индексируемые в базах Web of Science и/или Scopus, опубликованные в рамках данного направления (с 2011 года):

 

1. I.A. Ovid'ko, A.G. Sheinerman (2015) Defect-assisted fracture of polycrystalline graphene. Proceedings of 4th International Conference on Materials Engineering for Advanced Technologies (ICMEAT), London, UK, 27-28 June, 2015 (Destech Publ. Inc, 2015), pp. 388-391. (link)

2. A.E. Romanov, A.L. Kolesnikova, T.S. Orlova, I. Hussainova, V.E. Bougrov, R.Z. Valiev (2015) Non-equilibrium grain boundaries with excess energy in graphene. Carbon, 81(1):223-231. (link)

3. I.A. Ovid'ko, A.G. Sheinerman, N.V. Skiba, S.A. Krasnitskiy, A.M. Smirnov (2015) Twin boundary migration and nanocrack generation in ultrafine-grained materials with nanotwinned structure. WSEAS Transactions on Applied and Theoretical Mechanics, 10:204-212. (link)

4. A.E. Romanov, A.L. Kolesnikova, T.S. Orlova, I. Hussainova, V.E. Bougrov, R.Z. Valiev (2015) Non-equilibrium grain boundaries with excess energy in graphene. Carbon 81(1):223-231. (link)

5. M. Yu. Gutkin , S. A. Krasnitckii, A. M. Smirnov, A. L. Kolesnikova, A. E. Romanov (2015) Dislocation loops in solid and hollow semiconductor and metal nanoheterostructures. Physics of the Solid State, 57(6):1177-1182. (link)

6. M.Yu. Gutkin, A.L. Kolesnikova, S.A. Krasnitckii, L.M. Dorogin, V.S. Serebryakova, A.A. Vikarchuk, A.E. Romanov (2015) Stress Relaxation in Icosahedral Small Particles via Generation of Circular Prismatic Dislocation Loops. Scripta Materialia, 105:10-13. (link)

7. I.S. Yasnikov, A.L. Kolesnikova, A.E. Romanov (2015) Multi-disclination description of pentagonal particles with subsurface layer free of twin boundaries. Philosophical Magazine Letters, 95(9):450-457. (link)

8. H.M. Shodja, C. Enzevaee, M.Yu. Gutkin (2015) Interface effect on the formation of a dipole of screw misfit dislocations in an embedded nanowire with uniform shear eigenstrain field. European Journal of Mechanics - A/Solids, 51(1):154-159. (link)

9. T.S. Argunova, M.Yu. Gutkin, O.P. Kazarova, E.N. Mokhov, S.S. Nagalyuk, J.H. Je (2015) Synchrotron x-ray study on crack prevention in AlN crystals grown on gradually decomposing SiC substrates. Mater. Sci. Forum821-823:1011-1014. (link)

10. M.Yu. Gutkin, A.M. Smirnov (2015) Initial stages of misfit stress relaxation in composite nanostructures through generation of rectangular prismatic dislocation loops. Acta Materialia, 88:91-101. (link)

11. E.A. Rzhavtsev, M.Yu. Gutkin (2015) Computer simulation of fragmentation processes in FCC metals under shock compression by 2D dislocation-disclination dynamics. Scripta Materialia, 100:102-105. (link)

12. T. S. Argunova , M. Yu. Gutkin, V. G. Kohn, E. N. Mokhov (2015) Mechanisms of the formation of morphological features of micropipes in bulk crystals of silicon carbide. Physics of the Solid State, 57(4):752-759. (link)

13. M. Yu. Gutkin, E. A. Rzhavtsev (2015) Dynamics of formation of low-angle tilt boundaries in metals and alloys at high loading rates. Physics of the Solid State. 57(12):2447-2457. (link)

14. T. S. Argunova , M. Yu. Gutkin, E. N. Mokhov, O. P. Kazarova, J.-H. Lim, M. P. Shcheglov (2015) Prevention of AlN crystal from cracking on SiC substrates by evaporation of the substrates. Physics of the Solid State. 57(12):2473-2478. (link)

15. V.G. Konakov, O.Yu. Kurapova, N.N. Novik, A.S. Graschenko, A.V. Osipov, I.Yu. Archakov (2015) Approach for electrochemical deposition of copper-graphite films. Materials Physics and Mechanics, 24(1):61-71. (link)

16. A.K. Belyaev, V.A. Polyanskiy, Yu.A. Yakovlev (2015) Hydrogen as an Indicator of High-cycle Fatigue, Procedia IUTAM, 13;138-143. (link)

17. A.K. Belyaev, V.A. Polyanskiy, Yu.A. Yakovlev (2015) Rheological model of materials with defects containing hydrogen. Key Engineering Materials, 651-653:604-609. (link)

18. A.K. Belyaev, V.A. Polyanskiy, Yu.A. Yakovlev (2015) Application of rheological model of material with microdefects and nanodefects with hydrogen in the case of cyclic loading. Key Engineering Materials, 651-653:592-597. (link)

19. M. Polyanskiy, V. A. Polyanskiy, Yu. A. Yakovlev, N. A. Feoktistov, V. G. Golubev, and A. Ya. Vul' (2015) Determining the Content and Binding Energy of Hydrogen in Diamond Films. Technical Physics Letters, 41(6):540-542. (link)

20. S.V. Bobylev, A.G. Sheinerman (2015) Critical stress for dislocation formation in deformed twinned nanowires. Reviews on Advanced Materials Science, 43(1/2):31-37. (link)

21. I.A. Ovid'ko, N.V. Skiba, A.G. Sheinerman (2015) Plastic deformation through detwinning and its effect on electric resistivity in ultrafine-grained metals with nanotwinned structures. Reviews on Advanced Materials Science, 43(1/2):38-44. (link)

22. A.S. Kochnev and I. A. Ovid'ko (2015) Local crystal-to-glass and glass-to-crystal transformations in graphene under tensile deformation. Reviews on Advanced Materials Science, 43(1/2):89-92. (link)

23. N. F. Morozov, I. A. Ovid'ko, N. V. Skiba (2015) Micromechanics of plastic deformation of nanotwinned metals due to twin widening. Doklady Physics, 60(11): 507-510. (link)

24. I.A. Ovid'ko, N.V. Skiba and A.G. Sheinerman (2015) Plastic deformation modes in ultrafine-grained metals with nanotwinned structures. Reviews on Advanced Materials Science, 41(1):93-98. (link)

25. N.F. Morozov, I.A. Ovid'ko, N.V. Skiba (2014) Plastic flow through widening of nanoscale twins in ultrafine-grained metallic materials with nanotwinned structures. Rev. Adv. Mater. Sci., 37(1):29-36. (link)

26. S.V. Bobylev, I.A. Ovid'ko (2014) Nanodisturbance deformation mode in FCC nanowires, micropillars and bulk nanocomposites. Reviews on Advanced Materials Science 37(1/2):90-96. (link)

27. S. Rezazadeh-Kalehbasti, M.Yu. Gutkin, H.M. Shodja (2014) Wedge disclinations in the shell of a core-shell nanowire within the surface/interface elasticity. Mech. Mater., 68(1):45-63. (link)

28. C. Enzevaee, M.Yu. Gutkin, H.M. Shodja. (2014) Surface/interface effects on the formation of misfit dislocation in a core-shell nanowire. Phil. Mag., 94(5):492-519. (link)

29. M.Yu. Gutkin, S.N. Panpurin (2014) Equilibrium ensembles of quantum dots in atomically inhomogeneous pentagonal nanowires. Phys. Solid State, 56(6):1187-1194. (link)

30. M.Yu. Gutkin, A.M. Smirnov (2014) Generation of rectangular prismatic dislocation loops in shells and cores of composite nanoparticles. Phys. Solid State, 56(4):731-738. (link)

31. M.Yu. Gutkin, A.L. Kolesnikova, S.A. Krasnitckii, A.E. Romanov (2014) Misfit dislocation loops in composite core-shell nanoparticles. Phys. Solid State, 56(4):723-730. (link)

32. O. Yu. Kurapova, V. G. Konakov (2014) Phase evolution in zirconia based systems. Rev. Adv. Mater. Sci., 36(2):177-190. (link)

33. V.G. Konakov, I.A. Ovid.ko, O. Yu. Kurapova, N.N. Novik, S.N. Golubev, A.V. Osipov, I.Yu. Archakov (2014) Optimized approach for synthesis of nanotwinned copper with enhanced hardness. Rev. Adv. Mater. Sci., 39(1/2):1-7. (link)

34. I.A. Ovid'ko, A.G. Sheinerman, R.Z. Valiev (2014) Dislocation emission from deformation-distorted grain boundaries in ultrafine-grained materials. Scripta Mater., 76:45-48. (link)

35. A.E. Romanov,L.M. Dorogin, A.L. Kolesnikova, I. Kink, I.S. Yasnikov, A.A. Vikarchuk (2014) A model of whisker crystal growth from a pentagonal small particle. Tech. Phys. Lett., 40(2):174-176. (link)

36. A.L. Kolesnikova, T.S. Orlova, I. Hussainova, A.E.  Romanov (2014) Elastic models of defects in two-dimensional crystals. Phys. Solid State, 56(12):2573-2579. (link)

37. I.A. Ovid'ko, A.G. Sheinerman (2014) Nanoscale cracks at deformation twins stopped by grain boundaries in bulk and thin-film materials with nanocrystalline and ultrafine-grained structures. J. Phys. D, 47:015307. (link)

38. I.A. Ovid'ko, A.G. Sheinerman, R.Z. Valiev (2014) Mg segregations at and near deformation-distorted grain boundaries in ultrafine-grained Al-Mg alloys. J. Mater. Sci., 49:6682-6688. (link)

39. I.A. Ovid'ko, A.G. Sheinerman (2014) Grain boundary rotations near crack tips in deformed nanomaterials. Rev. Adv. Mater. Sci., 37(1/2):97-104. (link)

40. Ya.V. Konakov, I. A. Ovid'ko and A.G. Sheinerman (2014) Equilibrium dislocation structures at grain boundaries in subsurface areas of polycrystalline graphene and ultrafine-grained metals. Rev. Adv. Mater. Sci., 37(1/2):83-89. (link)

41. D.A. Indeitsev, E.V. Osipova, V.A. Polyanskii (2014) A Statistical Model of Hydrogen-Induced Fracture of Metals. Doklady Physics, 59(11):534-538. (link)

42. Polyanskiy, A.M., Polyanskiy, V.A., Yakovlev, Yu.A. (2014) Experimental determination of parameters of multichannel hydrogen diffusion in solid probe. International Journal of Hydrogen Energy, 39(30):17381-17390. (link)

43. T.S. Argunova, M.Yu. Gutkin, J.H. Je, J.H. Lim, E.N. Mokhov, A.D. Roenkov (2014) Structural transformation of lattice defects in free-spreading growth of bulk SiC crystals. Cryst. Eng. Comm, 16(37):8917-8923. (link)

44. M.Yu. Gutkin, A.L. Kolesnikova, S.A. Krasnitckii, A.E. Romanov, A.G. Shalkovskii (2014) Misfit dislocation loops in hollow core-shell nanoparticles. Scripta Materialia, 83(1):1-4. (link)

45. N.F. Morozov, I.A. Ovid'ko, N.V. Skiba (2013) Influence of nucleation of the chains of nanoscopic grains near the vertexes of cracks on the crack resistance of nanocrystalline ceramics. Doklady Physics, 58 (6): 249-252, doi:10.1134/S1028335813060049(link)

46. N.F. Morozov, I.A. Ovid’ko, N.V. Skiba, A.G. Sheinerman (2013) Influence of nanotwin generation near crack tips on the fracture toughness of nanomaterials. Doklady Physics, 58 (12): 544-547, doi:10.1134/S1028335813120082(link)

47. A.L. Kolesnikova, M.Yu. Gutkin, S.A. Krasnitckii, A.E. Romanov (2013) Circular prismatic dislocation loops in elastic bodies with spherical free surfaces. International Journal of Solids and Structures, 50 (10): 1839-1857, doi:10.1016/j.ijsolstr.2013.02.012(link)

48. M.Yu. Gutkin, S.N. Panpurin (2013) Spontaneous formation and equilibrium distribution of cylindrical quantum dots in atomically inhomogeneous pentagonal nanowires. Journal of Macromolecular Science B, 52 (12): 1756–1769, doi:10.1080/00222348.2013.808929(link)

49. M.Yu. Gutkin, S. Rezazadeh-Kalehbasti, H.M. Shodja (2013) Surface/interface effects on elastic behavior of an edge dislocation in the shell of a core-shell nanowire. European Journal of Mechanics A-Solids, 41: 86-100, doi:10.1016/j.euromechsol.2013.02.008(link)

50. M.Yu. Gutkin, C. Enzevaee, H.M. Shodja (2013) Interface effects on elastic behavior of an edge dislocation in a core-shell nanowire embedded to an infinite matrix. International Journal of Solids and Structures, 50 (7-8): 1177-1186, doi:10.1016/j.ijsolstr.2012.12.008(link)

51. A.G. Sheinerman, M.Yu. Gutkin, T.S. Argunova, E.N. Mokhov, S.N. Nagalyuk, J.H. Je (2013) Contact-free micropipe reactions in silicon carbide. Materials Science Forum (740-742): 597-600, doi:10.4028/www.scientific.net/MSF.740-742.597(link)

52. A.M. Polyanskii, V.A. Polyanskii, Yu.A. Yakovlev (2013) Metrological Assurance of Measurement of Hydrogen Concentration in Metals – a Basis for Safety in the Oil and Gas Industry. Measurement Techniques, 56 (3): 328-333, doi:10.1007/s11018-013-0204-3(link)

53. E.V. Chernyeva, A.M. Polyanskii, V.A. Polyanskii, P.A. Khaimovich, Yu.A. Yakovlev (2013) Influence of Barocryodeformation Conditions on the Properties of VT1-0 Titanium Alloy. Technical Physics, 58 (12): 1848–1852, doi:10.1134/S1063784213120098(link)

54. A.L. Kolesnikova, R.M. Soroka, A.E. Romanov (2013) Defects in the elastic continuum: classification, fields and physical analogies. Materials Physics and Mechanics, 17 (1): 71-91(link)

55. V.G. Konakov, E.N. Solovyeva, I.Yu. Archakov, S.N. Golubevy (2013) Strength of Al2O3-SiC-BN-Si3N4-based ceramics. Materials Physics and Mechanics, 18 (1): 93-100(link)

56. I.A. Ovid’ko (2013) Mechanical properties of graphene. Reviews on Advanced Materials Science, 34 (1): 1-11(link)

57. I.A. Ovid’ko (2013) Highly disclinated graphene. Reviews on Advanced Materials Science, 34 (1): 12-18(link)

58. I.A. Ovid’ko (2013) Enhanced mechanical properties of polymer-matrix nanocomposites reinforced by graphene inclusions: a review. Reviews on Advanced Materials Science, 34 (1): 19-25(link)

59. I.A. Ovid’ko, E.C. Aifantis (2013) Nanocrystals & nanomechanics: mechanisms & models. A selective review. Reviews on Advanced Materials Science, 35 (1/2): 1-24(link)

60. S.V. Bobylev, I.A. Ovid’ko (2013) Stress-driven rotations of high-angle grain boundaries in nanomaterials. Reviews on Advanced Materials Science, 35 (1/2): 25-38(link)

61. I.A. Ovid’ko, A.G. Sheinerman (2013) Kinetics of grain boundary sliding and rotational deformation in nanomaterials. Reviews on Advanced Materials Science, 35 (1/2): 48-58(link)

62. I.A. Ovid’ko, N.V. Skiba (2013) Formation of nanoscopic grains due to dislocation pile-up transformations in deformed ultrafine-grained materials. Reviews on Advanced Materials Science, 35 (1/2): 96-103(link)

63. Ya.V. Konakov, I.A. Ovid’ko, A.G. Sheinerman (2013) Inhomogeneous dislocation structures of disclinated grain boundaries in graphene and ultrafine-grained metals. Reviews on Advanced Materials Science, 35 (1/2): 104–109(link)

64. V.G. Konakov, E.N. Solovyeva, I.Yu. Archakov, S.N. Golubev (2013) The effect of phase transitions in Al2O3-SiC-BN zirconia doped system on the mechanical properties of ceramics. Reviews on Advanced Materials Science, 35 (1/2): 86-95(link)

65. A.V. Lobanova, A.L. Kolesnikova, A.E. Romanov, S.Yu. Karpov, M.E. Rudinsky, E.V. Yakovlev (2013) Mechanism of stress relaxation in (0001) InGaN/GaN via formation of V-shaped dislocation half-loops. Applied Physics Letters, 103 (15): 152106(link)

66. I.A. Ovid’ko, A.G. Sheinerman (2013) Cracks at disclinated grain boundaries in grapheme. Journal of Physics D, 46 (34): 345305, doi:10.1088/0022-3727/46/34/345305(link)

67. S.V. Bobylev, I.A. Ovid'ko (2012) Grain boundary rotations in solids. Physical Review Letters, 109 (17): 175501(1-5), doi:10.1103/PhysRevLett.109.175501 (link)

68. I.A. Ovid’ko (2012) Nanoscale multiplane shear and twin deformation in nanowires and nanocrystalline solids. Applied Physics Letters, 99 (6): 061907(1-3), doi:10.1063/1.3620934(link)

69. S.V. Bobylev, I.A. Ovid’ko (2012) Nanodisturbances and nanoscale deformation twins in fcc nanowires. Physical Review B., 83 (5): 054111(1-13), doi:10.1103/PhysRevB.83.054111(link)

70. S.V. Bobylev, N.F. Morozov, I.A. Ovid’ko (2012) Cooperative grain boundary sliding and nanograin nucleation process in nanocrystalline, ultrafine-grained, and polycrystalline solids. Physical Review B., 84 (9): 094103(1-10), doi:10.1103/PhysRevB.84.094103(link)

71. S.V. Bobylev, T. Ishizaki, S. Kuramoto, I.A. Ovid’ko (2012) Formation of nanocrystals due to giant-fault deformation in Gum Metals. Scripta Materialia , 65 (8): 668–671, doi:10.1016/j.scriptamat.2011.07.004(link)

72. I.A. Ovid’ko, A.G. Sheinerman, E.C. Aifantis (2011) Effect of cooperative grain boundary sliding and migration on crack growth in nanocrystalline solids. Acta Materialia, 59 (12): 5023–5031, doi:10.1016/j.actamat.2011.04.056(link)

73. I.A. Ovid’ko, A.G. Sheinerman (2011) Nanoscale rotational deformation in solids at high stresses. Applied Physics Letters, 98 (18): 181909(1-3), doi:10.1063/1.3587637(link)

74. I.A. Ovid’ko, A.G. Sheinerman, N.V. Skiba (2011) Elongated nanoscale voids at grain boundaries in nanocrystalline materials. Acta Materialia, 59 (2): 678–685, doi:10.1016/j.actamat.2010.10.005(link)

75. I.A. Ovid’ko, A.G. Sheinerman (2011) Micromechanisms for improved fracture toughness in nanoceramics. Reviews on Advanced Materials Science, 29 (2): 105-125(link)

76. N.F. Morozov, I.A. Ovid’ko, N.V. Skiba (2011) Stress-driven formation of nanograin chains in nanocrystalline and ultrafine-grained materials. Reviews on Advanced Materials Science, 29 (2): 180-186(link)

77. I.A. Ovid’ko, A.G. Sheinerman (2011) Deformation twinning through nanoscale ideal shears in nano- and polycrystalline materials at ultra high stresses. Reviews on Advanced Materials Science, 27 (2): 189–194(link)

78. I.A. Ovid’ko, A.G. Shein (2011) Nucleation of misfit dislocations by nanoscale ideal shear in surface nanowires and nanoislands (quantum dots). Reviews on Advanced Materials Science, 27 (1): 83–89(link)

79. I.A. Ovid'koCrack Generation in Nanomaterials at High-Strain-Rate and Quasistatic Regimes of Deformation. Materials Physics and Mechanics: 76-101(link)

80. I.A. Ovid'ko, A.G. Sheinerman, E.C. Aifantis (2011) Mechanics of Crack Growth Processes in Nanoceramics. Materials Physics and Mechanics, 12 (1): 1-29(link)

81. I.A. Ovid'ko, A.G. Sheinerman (2011) Effect of Hydrogen on Strength of Nanoceramics. Materials Physics and Mechanics, 11 (1): 76-93(link)

82. V.G. Konakov, S.N. Golubev, E.N. Solovyeva, I.Yu. Archakov, N.V. Borisova, A.V. Shorokhov (2011) Correlation between the Precursor Dispersity and Mechanical Strength of Solid Electrolytes Based on Ce2O3-ZrO2 System. Materials Physics and Mechanics, 11 (2): 183-189(link)

83. V.G. Konakov, S.N. Golubev, E.N. Solovyeva, I.Yu. Archakov, N.V. Borisova, A.V. Shorokhov (2011) Agglomerate Size in Precursors and Mechanical Strength of Solid Elestrolytes Based on Y2O3-ZrO2 System. Materials Physics and Mechanics, 11 (1): 68-75(link)

84. I.A. Ovid'ko, N.V. Skiba (2011) Generation of New Nanoscopic Grains near Crack Tips in Deformed Nanocrystalline Materials. Materials Physics and Mechanics, 11 (2): 105-117(link)

85. A.M. Polyanskii, V.A. Polyanskii, Yu.A. Yakovlev (2011) Investigation of the completeness of specimen degassing in an analysis of the hydrogen content of aluminum alloys. Metallurgist, 55 (3-4): 303-310, doi:10.1007/s11015-011-9428-0(link)

86. E.V. Chernyaeva, P.A. Khaimovich, A.M. Polyanskii, V.A. Polyanskii, D.L. Merson, E.G. Zamler, Yu.A. Yakovlev (2011) Influence of barocryodeformation on the hydrogen concentration and acoustic emission in VT1-0 commercial titanium. Technical Physics, 56 (4): 560-563, doi:10.1134/S1063784211040104(link)

87. S.S. Moeini-Ardakani, M.Yu. Gutkin, H.M. Shodja (2011) Elastic behavior of an edge dislocation inside the wall of a nanotube. Scripta Materialia, 64 (8): 709-712, doi:10.1016/j.scriptamat.2010.12.022(link)

88. M.Yu. Gutkin, K.V. Kuzmin, A.G. Sheinerman (2011) Misfit stresses and relaxation mechanisms in a nanowire containing a coaxial cylindrical inclusion of finite length. Physica Status Solidi B., 248 (7): 1651-1657, doi:10.1002/pssb.201046452(link)

89. H.M. Shodja, M.Yu. Gutkin, S.S. Moeini-Ardakani (2011) Effect of surface stresses on elastic behavior of a screw dislocation inside the wall of a nanotube. Physica Status Solidi B., 248 (6): 1437-1441, doi:10.1002/pssb.201046417(link)

90. T.S. Argunova, M.Yu. Gutkin, J.H. Je, E.N. Mokhov, S.S. Nagalyuk, Y. Hwu (2011) SR phase contrast imaging to address the evolution of defects during SiC growth. Physica Status Solidi A., 208 (4): 819-824, doi:10.1002/pssa.201026341(link)

91. N.A. Bert, A.L. Kolesnikova, I.K. Korolev, A.E. Romanov, A.B. Freidin, V.V. Chaldyshev, E.C. Aifantis (2011) Elastic fields and physical properties of surface quantum dots. Physics of the Solid State, 53 (10): 2091-2102, doi:10.1134/S1063783411100052(link)

92. I.A. Ovid’ko (2012) Nanoscale amorphization as special deformation mode in nanowires. Scripta Materialia, 66 (6): 402-405, doi:10.1016/j.scriptamat.2011.12.001(link)

93. I.A. Ovid’ko, A.G. Sheinerman (2012) Nanoscale rotational deformation near crack tips in nanocrystalline solids. Journal of Physics D., 45 (33): 335301(1-8), doi:10.1088/0022-3727/45/33/335301(link)

94. I.A. Ovid’ko, N.V. Skiba (2012) Enhanced dislocation emission from grain boundaries in nanocrystalline materials. Scripta Materialia, 67 (1): 13-16, doi:10.1016/j.scriptamat.2012.03.007(link)

95. I.A. Ovid’ko, A.G. Sheinerman (2012) Generation and growth of nanocracks near blunt cracks in nanocrystalline solids. European Journal of Mechanics A-Solids, 33: 39-47, doi:10.1016/j.euromechsol.2011.11.001(link)

96. I.A. Ovid’ko (2012) Review on grain boundaries in graphene. Curved poly- and nanocrystalline graphene structures as new carbon allotropes. Reviews on Advanced Materials Science, 30 (3): 201-224(link)

97. I.A. Ovid’ko, T.G. Langdon (2012) Enhanced ductility of nanocrystalline and ultrafine-grained metals. Reviews on Advanced Materials Science, 30 (2): 103-111(link)

98. I.A. Ovid’ko (2012) How to fabricate new carbon nanostructures through grain boundary engineering in grapheme. Reviews on Advanced Materials Science, 32 (1): 1-6(link)

99. S.V. Bobylev, N.F. Morozov, I.A. Ovid'ko, B.N. Semenov, A.G. Sheinerman (2012) Misfit dislocation configurations at interphase boundaries between misoriented crystals in nanoscale film-substrate systems. Reviews on Advanced Materials Science, 32 (1): 24-33(link)

100. V.G. Konakov, A.V. Shorokhov, N.V. Borisova, S.N. Golubev, E.N. Solovyeva, V.M. Ushakov (2012) The effect of nanosize Y2O3-ZrO2, Ce2O3-ZrO2, and Ce2O3-Y2O3-ZrO precursor dispersity on the conductivity and sensor properties of final ceramics. Reviews on Advanced Materials Science, 32 (1): 34-43(link)

101. I.A. Ovid’ko, A.G. Sheinerman (2012) Nanoscale amorphization near crack tips in deformed nanocrystalline and ultrafine-grained materials. Reviews on Advanced Materials Science, 32 (1): 61-67(link)

102. N.F. Morozov, I.A. Ovid'ko, A.G. Sheinerman, N.V. Skiba (2012) Formation of deformation twins through ideal nanoshear events near crack tips in deformed nanocrystalline materials. Reviews on Advanced Materials Science, 32 (1): 75-81(link)

103. A.M. Polyanskii, V.A. Polyanskii, A.A. Bogdanov, M.I. Petrov (2012) Basic technology for developing cost-effective thermal waste recycling industry. Russian Journal of Physical Chemistry, 6 (5): 643-646, doi:10.1134/S1990793112050235(link)

104. A.K. Belyaev, A.M. Polyanskiy, V.A. Polyanskiy, Yu.A. Yakovlev (2012) Parametric instability in cyclic loading as the cause of fracture of hydrogenous materials. Mechanics of Solids, 47 (5): 533-537, doi:10.3103/S0025654412050068(link)

105. A.K. Belyaev, V.A. Polyanskiy, Yu.A. Yakovlev (2012) Stresses in a pipeline affected by hydrogen. Acta Mechanica, 223 (8): 1611-1619, doi:10.1007/s00707-012-0670-8(link)

106. N.K. Dynkin, M.Yu. Gutkin (2012) Migration of grain boundaries in free-standing nanocrystalline thin films. Scripta Materialia, 66 (2): 73-76, doi:10.1016/j.scriptamat.2011.09.043(link)

107. M.Yu. Gutkin, N.K. Dynkin (2012) Dislocation-disclination models of grain boundary migration in ultra-thin nanocrystalline films. Physics of the Solid State, 54 (4): 798-807, doi:10.1134/S1063783412040105(link)

108. H.M. Shodja, H. Ahmadzadeh-Bakhshayesh, M.Yu. Gutkin (2012) Size-dependent interaction of an edge dislocation with an elliptical nano-inhomogeneity incorporating interface effects. International Journal of Solids and Structures, 49 (5): 759-770, doi:10.1016/j.ijsolstr.2011.11.013(link)

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