Prof. Dr. Oleg Devoino | Belarusian National Technical University | BelarusΒ
Dr. Oleg Devoino is a distinguished researcher, professor, and innovator in the field of mechanical engineering technology. ποΈ With a career spanning over four decades, he has significantly contributed to materials science, laser processing, and wear-resistant coatings. π He obtained his Ph.D. in 1986, D.Sc. in 2003, and became a Professor in 2011. π He currently serves as the Head of the Research Laboratory and a Part-time Professor at Belarusian National Technical University (BNTU). ποΈ Dr. Devoino has authored 300+ scientific publications, 6 monographs, and holds 72 patents, making remarkable advancements in nanotechnology and material modification. π¬π
Professional Profile:
ORCID
SCOPUS
Suitability for Best Innovation Award
Dr. Oleg Devoino is an outstanding candidate for the Best Innovation Award due to his exceptional contributions to mechanical engineering technology, materials science, and laser processing. With over four decades of dedicated research, he has pioneered advancements in wear-resistant coatings and nanotechnology, which have had a significant impact on industrial applications.
Education & Experience ππ
- π Belarusian National Technical University (BNTU) β Studied Mechanical Engineering Technology (1974-1979)
- ποΈ Postgraduate Studies at BNTU (1979-1983)
- π Doctorate Studies (1994-1997)
- π Ph.D. in Mechanical Engineering (1986)
- π Doctor of Science (D.Sc.) (2003)
- π Professor Title (2011)
- π¬ Researcher at BNTU (1979-1980)
- π Senior Researcher at BNTU (1979-1994)
- π Leading Researcher at BNTU (1997-2004)
- ποΈ Chief Researcher at BNTU (2005-2012)
- π― Head of Research Laboratory & Part-time Professor, BNTU (2012βPresent)
Professional Development ποΈπ¬π
Dr. Oleg Devoino is a renowned expert in materials science, mechanical engineering, and laser processing technologies. π¬ His work focuses on developing advanced surface modification techniques, nanotechnology applications, and wear-resistant coatings. ποΈ He has led multiple research projects under the State Programs of Belarus on oxide-ceramic coatings, plasma-laser methods, and nanomodified materials. π His 300+ scientific works, including 6 monographs and 72 patents, are widely cited in SCOPUS and Web of Science (WoS). π His pioneering studies have had a global impact, and he continues to mentor young researchers while advancing the frontiers of materials engineering. ππ¨βπ«
Research Focus π¬βοΈπ
Dr. Devoinoβs research is centered on mechanical engineering technology, materials science, and laser processing. ποΈ His groundbreaking studies focus on wear-resistant coatings, oxide-ceramic layers, and nanomaterial modification techniques. π¬ He has developed innovative plasma-laser and micro-arc oxidation methods to enhance the durability and efficiency of engineering materials. π₯ His expertise extends to shock-resistant coatings, surface modification of structural steels, and ultra-high-speed laser processing. π His contributions have paved the way for sustainable, high-performance materials in aerospace, automotive, and industrial applications. ππ§
Awards & Honors πποΈ
- π
Head of the Research Laboratory at BNTU (2012βPresent)
- π Professor Title Awarded in 2011
- π Doctor of Science (D.Sc.) Awarded in 2003
- π¬ Ph.D. in Mechanical Engineering (1986)
- π Published 300+ scientific works, including 6 monographs
- ποΈ Holder of 72 patents in materials science and engineering
- π Recognized in SCOPUS and Web of Science (WoS)
- π Leader of multiple government-funded research projects in Belarus
Publication Top Notes:Β
π¬ The Effect of Varying Parameters of Laser Surface Alloying on 17-4PH Stainless Steel
βοΈ Tribologic Behavior and Surface Integrity of NAB Bronze Coatings with WC and CrβCβ Carbides π Cited by: 5
π₯ On the Efficiency of Laser Alloying of Grey Cast Iron with Tungsten and Silicon CarbidesΒ π Cited by: 2
π Effect of Surface Roughness on Laser Surface Alloying of 17-4PH Stainless Steel π Cited by: 9
π‘ Tribotechnical Characteristics of Bronze BRA7N6F Coatings after Fiber Laser Melting
π‘ Monitoring of Laser Processing Using Thermal Imaging and Spectral TechnologyΒ π Cited by: 1