Scientific profile
Candidate of technical sciences, associate professor, Corresponding Member of the International Engineering Academy
Oleh
UZLOV
Contacts and CV
Research
Current research
Past research
Since 2001, a graduate student of the Department of Materials Science and Materials Processing. In 2006, he defended his PhD thesis.
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Expertise Summary
In 2001, he graduated from NMetAU. In 2001, he was admitted to the postgraduate program of the department of MiOM PDABtaA. In 2006, he defended his PhD thesis. After awarding the scientific degree of Ph.D. Since 2006, he has been working as an associate professor at the Department of Materials Science and Materials Processing.
Publications
1. Bausk, E. A., Volchuk, V. M., & Uzlov, O. V. (2021, May). Remaining Service Life Evaluation of Nuclear Power Plants Construction Steel Elements. In Journal of Physics: Conference Series(Vol. 1926, No. 1, p. 012050). IOP Publishing.
2. Volchuk, V. M., Uzlov, O. V., Puchikov, O. V., & Ivantsov, S. V. (2021). Fractals theory application for evaluation of influence of non metallic inclusions on mechanical properties of S355J2 steel. In IOP Conference Series: Materials Science and Engineering(Vol. 1021, No. 1, p. 012053). IOP Publishing.
3. Volchuk, V. M., Uzlov, O. V., Puchikov, O. V., Zotov, D. S., & Sokoliuk, V. I. (2021, September). Fractal model of mechanical properties evaluation of C-Mn-Al-Ti-N steel with acicular ferrite structure for railway freight cars. In AIP Conference Proceedings(Vol. 2389, No. 1). AIP Publishing.
4. Volchuk, V. M., Uzlov, O. V., Puchikov, O. V., Ivantsov, S. V., & Tiutieriev, I. A. (2021, February). Fractal model of structure-properties effect of low carbon steel. In IOP Conference Series: Materials Science and Engineering(Vol. 1100, No. 1, p. 012034). IOP Publishing.
5. Bausk, E. A., Volchuk, V. M., & Uzlov, O. V. (2022, August). Multifractal analysis of the S235J2 steel structure with corrosion wear. In AIP Conference Proceedings(Vol. 2656, No. 1). AIP Publishing.
Courses
1. Structural analysis of metals using modern methods
The subject of study of the educational discipline is the basic methods of structural analysis of metals using modern research methods such as optical microscopy with computer image analysis, X-ray structural and X-ray spectral analyses, transmission and raster electron microscopy using modern electron microscopes and physical methods of materials research.
2. Iron-based alloys
Introduction to the main theories describing the influence of alloying elements on the structure and properties of iron-based alloys. Analysis of the relationship between the amount of the alloying element and the resulting set of material properties. Study of the influence of alloying elements on phase transformations in iron-based alloys.
3. Heat treatment
Acquaintance of students with the main types of heat treatment of materials used to obtain the required set of properties. To study the main features of phase and structural transformations occurring in structural materials during heat treatment.
4. Cast irons and products from them in construction
Acquaintance of students with the study of modern technologies in mechanical engineering, namely: basic information about the production of cast iron, modern technologies of foundry production.