Vladimir Victorovich Cheverikin

Position:Senior Research Scientist
Phone:+7 495 955 01 34
E-mail:cheverikin80@rambler.ru
Education
10.2002-06.2007

Postgraduate study. Ph.D. degree in Physical metallurgy and heat treatment of metals. Moscow State Institute of Steel and Alloys (Technological University), Moscow.

Thesis title: “Effect eutectic forming elements on the structure and properties of high-strength aluminum alloys of system of Al — Zn — Mg”.

09.1997-06.2002

Undergraduate Student. Moscow State Institute of Steel and Alloys (Technological University), Moscow.

Diploma and Master degree: Engineer. Speciality: “Physical metallurgy and heat treatment of metals”

Diploma: “Study of the kinetics of interaction of a melt of aluminum with SiO2 at temperature 1050 — 1100 °C”.

Employment
04.2008-present

Senior Research Scientist, Department of Physical Metallurgy of Non-Ferrous Metals, National University of Science and Technology “MISIS”, Moscow, Russia.

Senior Research Scientist, Thermochemistry of Materials SRC, National University of Science and Technology “MISIS”, Moscow, Russia.

Teaching: Lectures and Practical works in courses “Material science”, “Heat treatment of metals”, “Physical metallurgy”, “Experiment management”, “Non-ferrous metals”, "Modern equipment and techniques for investigation of structure and properties of metallic alloys ","Term project". For lectures and practical classes the multimedia equipment is widely used. Practical seminars are clear and are carried out with modern equipment. We are giving students the opportunity to make experiments with their “own hands.

Due to these practical and laboratory works students receive skills of working with the literature and standards, logical, creative and systematic thinking, a full analysis of commercial alloys, including the microstructure and final consumer properties of materials.

During practical classes students receive different tasks such are: analysis of structure formation and phase composition of metallic materials based on non-ferrous metals and composites — in the process of casting, heat treatment and deformation processing, to teach the choice of material for the manufacture of products with desired properties, the selection and conduct of their treatment, and characteristics of properties

I am responsible for the development and research of new high-strength and casting aluminium alloys based on different systems.

10.2002-04.2008

Leading engineer, Department of Physical Metallurgy of Non-Ferrous Metals, Moscow State Institute of Steel and Alloys (Technological University), Moscow, Russia.

Teaching: Practical works in courses “Mechanical properties of metals”, “Physical properties of metals”

I am responsible for the development and research of new high-strength and casting aluminium alloys based on different systems.

Research Interests

Investigation of structure formation mechanisms, phase transformations, deformation behaviour, thermal stability, mechanical and physical properties of aluminum alloys and composites. In general, my area of expertise is Physical Metallurgy of metals and alloys which establishes the relationships between the structure of materials and their properties. This subject includes the following topics: phase diagrams and alloy thermodynamics (experiment and self-consistent calculations), solidification, micro- and sub-structure (experiment, characterization, and modeling), Electron microscopy (TEM, SEM), crystallography, phase transformations, processing, physical, mechanical, and technological properties and deformation behavior of the metallic materials.

New materials design.

Advanced training

Learning systems management, The University of Iowa, USA, Certificate, 2013

Learning systems management, American Councils, USA, Certificate, 2013

Modern technology of production of cylinder blocks for the car, Volkswagen AG R&D centre, Germany, Certificate, 2012

Modern technology for casting car’s components, Volkswagen AG R&D centre, Germany, Certificate, 2011

MISIS Faculty Development Programme, Cambridge University, Certificate, 2010

Books and Tutorial

Cheverikin VV, Pozdniakov AV, Thermodynamic calculations and analysis of the phase diagrams of multicomponent systems, MISIS, 2013

List of selected publications
  1. V.V. Cheverikin, N.A. Belov, D.G. Eskin, A.N. Turchin “Effect of Al3Ni and Mg2Si eutectic phases on casting properties and hardening of an Al—7% Zn—3% Mg alloy”, Materials Science Forum Vols. 519-521 (2006) pp 413-418, Proceedings of the 10th International Conference “Aluminium Alloy”, Vancouver, Canada, 9–13 July, 2006.
  2. Belov N A., Zolotorevskii V.S., Cheverikin, V.V. Yurina E A “Influence of nickel on the phase composition, hardening, and casting properties of aluminum alloy ATs4Mg”, Russian Journal of Non Ferrous Metals, vol.45, № 12, 2005
  3. Cheverikin V.V., Zolotorevskiy V.S., Khvan A.V., Hernandez L.T., “Thermodynamic Simulations of Multicomponent Phase Diagrams on the Base ofAluminum and Experimental Microstructure Analysis of the Alloys with a Considerable Quantity of Multiphase Eutectics”, Proceedings of the 12th International Conference on Aluminium Alloys, September 5-9, 2010, Yokohama, Japan, pp. 1554-1558
  4. V.V. Cheverikin, A.V. Khvan, V.S. Zolotorevskiy, Transforming of the Morphology of Iron Phases in Aluminum Alloy, ICAA13: 13th international conference on aluminum alloys, pp. 1205–1208, 2012
  5. N.A. Belov, V.D. Belov, V.V. Cheverikin, S.S. Mishurov, Economically Doped High_Strength Deformed Nikalines as Aluminum Alloys of a New Generation, Russian Journal of Non_Ferrous Metals, 2011, Vol. 52, No. 2, pp. 180–190
  6. V.V. Cheverikin, A.V. Pozdnyakov, A.Yu. Churyumov, V.S. Zolotorevskiy The use of thermodynamic calculations and mathematical modeling in the development of casting aluminum alloys, Technology of light alloys, 2012, #4, pp.13-19
  7. Bazhenov, V.E. , Pikunov, M.V. , Cheverikin, V.V. The Partition Coefficients of Components in Cu-Ni-Mn Alloys, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, Volume 46, Issue 2, 2014, Pages 843-850
  8. Khomutov, M.G., Cheverikin, V.V., Korotitskii, A.V., Optimization of regimes of thermodeformation treatment of high-strength aluminum alloy 019705, Metal Science and Heat Treatment, 56 (1-2), pp. 21-23
  9. Popov V.A., Chernov B.B., Prosviryakov A.S., Cheverikin V.V., Khodos I.I., Biskupek J., Kaiser U., New mechanical-alloying-based technological scheme for producing electrochemical composite coatings reinforced with non-agglomerated nanodiamond particles, Journal of Alloys and Compounds, Volume 615, Supplement 1, 5 December 2014, Pages S433—S436
  10. A.V. Khvan, V.V. Cheverikin, A.T. Dinsdale, A. Watson, V.S. Levchenko, V.S. Zolotorevskiy, Formation of metastable phases during solidification of Al—3.2 wt% Mn, Journal of Alloys and Compounds, Volume 622, 15 February 2015, Pages 223-228
  11. A.M. Akhmetova, A.T. Dinsdale, A.V. Khvan, V.V. Cheverikin, A.V. Kondratyev, D.O. Ivanov, Experimental investigations of the Ag—Cu—Ge system, Journal of Alloys and Compounds, Volume 630, 5 May 2015, Pages 84-93