Aleksey Korchunov

korchunov

Nosov Magnitogorsk State Technical University

Department of Design and Operation of Metallurgical Machines and Equipment

38, Lenin street, Magnitogorsk, 455000, ChelyabinskRegion, Russia

http://www.magtu.ru

e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

EDUCATION

  • 1989-1994 Nosov Magnitogorsk Institute of Mining and Metallurgy, the Faculty of Technology. Major: Metal Forming
  • 2001 Awarded an academic degree of the Candidate of Engineering Sciences (PhD)
  • 2010 Awarded an academic degree of the Doctor of Engineering Sciences
  • 2013 Awarded an academic rank of the Professor

RESEARCH EXPERIENCE

Development of metalware manufacturing technologies to produce:

  • low and high carbon wire for reinforced concrete structures,
  • spring-based couplings for railroad ties,
  • high-strength reinforcement bars for ferroconcrete ties used on modern railroad lines,
  • sized steel for the machine-building industry.

RESEARCH INTERESTS

  • Theoretical and field study of wire and sized steel drawing processes.
  • Technological inheritance in metalware manufacturing technologies.  
  • Quality control in metalware manufacturing technologies. 

TEACHING AND EDUCATIONAL ACTIVITIES

Course Titles:

  • Metal forming technologies (metalware manufacturing).
  • Modeling of metal forming processes.
  • Quality control in metalware manufacturing technologies.

PhD students:

  • Four PhD students defended their theses for an academic degree of the Candidate of Engineering Sciences (PhD).

PUBLICATIONS

  1. Ensuring product quality in hardware-manufacturing technologies. Metallurgist, Vol. 52, Nos. 9-10, 2008, pp. 574-581.
  2. Improving the quality control of spring-based couplings for railroad ties. Steel in Translation, 2008, Vol. 38, No. 1, pp. 60-62.
  3. Deformation and thermohardening of reinforcement for ferroconcrete crossties. Steel in Translation, 2009, Vol. 39, No. 1, pp. 80-83.
  4. Quality control of hardware products based on the use of fuzzy models to describe technological inheritance. Metallurgist, Vol. 53, Nos. 5-6, 2009, pp. 290-295.
  5. Forming ultrafine-grain structure in steel wire by continuous deformation. Steel in Translation, 2010, Vol. 40, No. 6, pp. 595-597.
  6. Production of stabilized high-strength reinforcement steel for the new generation of ferroconcrete railroad ties. Metallurgist, Vol. 55, Nos. 1-2, May, 2011, pp.54-58.
  7. Controlling the structure and properties of nanostructural carbon steel. Steel in Translation, 2012, Vol. 42, No. 10, pp. 745-749.
  8. Development and efficiency estimation of the method of continuous deformation nanostructuring of high-carbon steel wire. Nanocon 2012. 23 – 25 Oct, 2012. Brno, Czech Republic, EU Conference proceedings, pp. 137-141.
  9. Forming of nanodimentional structure parts in carbon steels. Waset 2012. International conference, 22 – 23 Dec, 2012. Bangkok, Thailand, Issue 72, pp. 1116-1119.
  10. Research of multipass processes of cold plastic deformation on the basis of mathematical modeling by the method of Markov chains. European Science and Technology: proceedings of the 4th International Research and Practice Conference, Vol. I, Munich, Germany, 2013, pp. 223-230.
  11. Assessing the effectiveness of intense plastic deformation of structural carbon steel. Steel in Translation, 2013, Vol. 43, No. 2, pp. 50-54.
  12. Methodology of developing mathematical models with fuzzy logic elements for quality indices control. Applied Mechanics and Materials, Vol. 436 (2013), pp. 374-381.
  13. Technological inherited connections in a continuous method of deformational nanostructuring. Applied Mechanics and Materials, Vol. 555 (2014), pp. 401-405.
  14. Finite element modeling of shear strain in rolling with velocity asymmetry in multi-roll calibers. Key Engineering Materials, Vols. 622-623 (2014), pp. 912-918.
  15. Recovery effect in drawing of steel bar for sizing. Procedia Engineering, 81 (2014), pp. 676-681.
  16. Finite element modeling of shear strain in asymmetric and symmetric rolling in multi-roll calibers. Procedia Engineering, 81 (2014), pp. 2469-2474.

Additional Information

Scopus Author ID: 24474784300

Researcher ID: B-1090-2014

http://orcid.org/0000-0002-2844-8283

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