Priority Research Centre for
GEOTECHNICAL SCIENCE AND ENGINEERING

Dr Elena Levchenko

Selected publications are available for download in PDF format below.

Books

  1. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, Computer Simulation in Solid State Physics (translated title), Voronezh State Technical University, Russia, 2005 (in Russian).

Book Chapters

  1. E.V. Levchenko "Guide for Writing Final Year projects on the Discipline Metrology, Standardization and Certification", Voronezh State Technical University, 2004 (in Russian).
  2. V.I. Glebov, A.V. Evteev, E.V. Levchenko, V.A. Yuriev, "Practicum on the discipline Metrology, Standardization and Certification" in 3 Volumes, Voronezh State Technical University, 2004 (in Russian).
  3. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, V.A. Yuriev, "Guide for undergraduate students specialized in metal physics to write research projects", Voronezh State Technical University, 2003 (in Russian).

Journal Articles

  1. A.V. Evteev, A.T. Kosilov, E.V. Levchenko (1999) Computer Simulation of Atomic Structure of Metallic Glasses in Fe-C System, Vestnik VGTU. Seria Materialovedenie, 1.6, 56-58. (In Russian)
  2. A.V. Evteev, A.T. Kosilov, E.V. Levchenko (2000) Computer Simulation of Crystallization of Amorphous Alloy Fe95C5 under Isochronal Annealing, Vestnik VGTU. Seria Materialovedenie, 1.7, 42-44. (In Russian)
  3. A.V Evteev, A.T. Kosilov, E.V. Levchenko (2002) Crystallization, Melting, and Glassification of a Model Metallic Alloy Fe95C5 upon Ultrarapid Heating and Quenching, The Physics of Metals and Metallography, 94/2, 119 –123.
  4. A.V. Evteev, A.T. Kosilov, E.V. Levchenko (2002)  Atomic Structure and Structure Relaxation of Metallic glasses Fe83M17 (M: C, B, P), Izvestiya TulGU. Seriya Materialovedenie, 3, 60-66 (in Russian).
  5. A.V Evteev, A.T. Kosilov, E.V. Levchenko (2002) Structural model for vitrification of pure metals, J. Experimental and Theoretical Physics Letters (JETP Lett), 76/2, 104-106.
  6. A.V Evteev, A.T. Kosilov, E.V. Levchenko (2002)  Atomic Short-Range Order in Fe-C Amorphous Metal Alloys, Izvestiya Akademii Nauk Seriya Fizicheskaya, 66, 802-805 (in Russian).
  7. A.V Evteev, A.T. Kosilov, E.V. Levchenko (2003) Atomic Mechanisms of Formation and Structure Relaxation of Fe83M17 (M: C, B, P) Metallic Glass, Acta Materialia, 51, 2665-2674.
  8. A.V. Evteev, A.T. Kosilov, E.V. Levchenko (2003) Structure Organization of Pure Metals during Glass Transition, Vestnik VGTU. Seria Materialovedenie, 1.14, 42-44. (In Russian)
  9. A.V. Evteev, A.T. Kosilov, E.V. Levchenko (2004) Atomic Mechanisms of Pure Iron Vitrification, J. Experimental & Theoretical Physics (JETP), 99, 3, 522-529.
  10. E. Levchenko, N. Lupu, A. LeMoulec, Eiichiro Matsubara, G. Vaughan, A. Kvick, A. Inoue, A.R. Yavari (2004) Short-Range Order in Pd 42.5Cu30Ni7.5P20 Bulk and Ribbon Metallic Glasses, Journal of Metastable and Nanocrystalline Materials (JMNM), 22 , 65-70.
  11. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, O.B. Logachev (2005) The Influence of the Icosahedral Percolation Transition in Supercooled Liquid Iron on the Diffusion Mobility of Atoms, J. Experimental & Theoretical Physics (JETP), 101, 3, 521-527.
  12. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, O.B. Logachev (2005) Kinetics of Nucleation in pure amorphous metals, Anniversary Issue of Scientific Papers devoted to the 90th Birthday of V.S. Postnikov "Modern Problems of Solid State Physics and Materials Science", ed: by V.M. Ievlev and A.A. Schetinin (Voronezh State Technical University Press) 35-43.
  13. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, O.B. Logachev (2006) The Influence of Liquid-Glass Transition on Diffusion and Nucleation in Computer-Simulated Iron, Defect and Diffusion Forum, 249, 97-104.
  14. A.A. Dmitriev, A.V. Evteev, V.M. Ievlev, A.T. Kosilov, E.V. Levchenko (2006) Simulation of the Oriented Crystallisation of Cu/Pd(001) Amorphous Film, Solid State Phenomena, 115, 311-314
  15. A.V. Evteev, A.T. Kosilov, E.V. Levchenko, O.B. Logachev (2006) Kinetics of Isothermal Nucleation in a Supercooled Iron Melt, Physics of the Solid State, 48, 815-820.
  16. A.V. Evteev, E.V. Levchenko, I.V. Belova, G.E. Murch (2007) Shrinking Kinetics by Vacancy Diffusion of a Pure Element Hollow Nanosphere, Philosophical Magazine, 87/25, 3787-3796
  17. A.V. Evteev, E.V. Levchenko, I.V. Belova, G.E. Murch (2006) Molecular Dynamics Study of Carbon Diffusion in Austenite, Defect and Diffusion Forum, 258-260, 253-258.
  18. A.V. Evteev, E.V. Levchenko, I.V. Belova, G.E. Murch (2007) Stability of Hollow Nanospheres: a Molecular Dynamics Study, Solid State Phenomena, 129, 125-130.
  19. A.V. Evteev, E.V. Levchenko, I.V. Belova and G.E. Murch (2007) Stability and Shrinkage by Diffusion of Hollow Nanotubes, Defect and Diffusion Forum, 266, 39-47.
  20. A.V. Evteev, E.V. Levchenko, I.V. Belova, G.E. Murch (2007) Kinetic and Molecular Dynamics Analysis of Carbon Diffusion in Austenite, Philosophical Magazine, 87/28, 4335-4357.
  21. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Modelling of Formation by Interdiffusion of Pd-Ni Alloy Nanoparticles, Defect and Diffusion Forum, submitted (16.07.07).
  22. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Theoretical Analysis and Atomistic Modelling of Diffusion and Stability of Pure Element Hollow Nanospheres and Nanotubes, Defect and Diffusion Forum, submitted (16.07.07).
  23. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Atomic Mechanism of Carbon Diffusion in Cementite, Defect and Diffusion Forum, submitted (16.07.07).
  24. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Kinetic Analysis and Monte Carlo Simulation of Shrinkage by Vacancy Diffusion of Pure Element Hollow Nanospheres and Nanotubes, Diffusion Fundamentals, submitted (17.08.07).
  25. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Reactive Diffusion and Surface Ordering in Ni-Core – Pd-Shell Nanoparticles Studied by Molecular Dynamics Method, Diffusion Fundamentals, submitted (17.08.07).
  26. A V Evteev, E.V. Levchenko, I V Belova and G E Murch, Molecular Dynamics Simulation of Defect Formation and Distribution in Palladium Hollow Nanosphere and Nanotube, Diffusion Fundamentals, submitted (17.08.07).

Copyright of the papers rests with a variety of different parties. They are made available solely on the same basis that the researcher would supply a single copy of a paper to an individual. It is up to you to ensure that your use of a paper does not infringe copyright law.