Educational Background 1. Mechanics and Applied Mathematics Higher Education Diploma, Belarusian State University, Minsk, Belarus, 2006 - 2011. 2. M.S. Diploma, Belarusian State University, Minsk, Belarus, 2011- 2012. Thesis title: “Simulation of Volumetric Damageability of the Mechanical Systems under Complex Loading”. 3. PhD course, Belarusian State University, Minsk, Belarus, 2012-2015. Dissertation title: “Computer modeling of mechanical objects states in conditions of cracking”.
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Work Experience 1. Belarusian State University, Minsk, Belarus; 2009 – 2013; Assistant Researcher, Laboratory of Applied Mechanics (part time). 2. Belarusian State University, Minsk, Belarus; 2013 – present; Junior Researcher, Laboratory of Applied Mechanics. 3. Belarusian State University, Minsk, Belarus; 2016 – 2018; Assistant Professor, Theoretical and Applied Mechanics Department (part time). 4. Belarusian State University, Minsk, Belarus; 2018 – present; Senior Lecturer, Theoretical and Applied Mechanics Department (part time).
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Research within State Programs 1. Development of Numerical and Experimental Methods of Estimation of Static and Cyclic Crack Resisnace of Plastic Steel and Increase of Operational Durability and Safety of Pipes of Linear Part of oil Pipeline "Druzhba" using Crack Resisnace criterion. Development of the Project of State Standard of Republic of Belarus on the Test Methods of Plastic Steels for Crack Resisnace. State Research Program “Mechanics, Technical Diagnostics, Metallurgy”; Jan. 2011 – Dec. 2013. 2. Development of Mobile Machines Theory, Methods of Functional Properties Calculation, Estimation and Maintenance of Reliability of Joints, Units and Cars as a Whole During Design and Operation. Development of New Methods of Calculation of Durability and Wear Resistance of Active Systems. State Research Program “Mechanics, Technical Diagnostics, Metallurgy”; Jan. 2011 – Dec. 2015. 3.Conducting experimental studies and modeling the influence of the composition and structure of steel iron VCHTG on its mechanical and service properties in relation to the responsible parts of agricultural machinery. State Research Program “Mechanics, Technical Diagnostics, Metallurgy”; Jan. 2017 – Dec. 2018. 4. Stress-Strain State, local and multiple damage of the main pipeline section with various corrosion defects, repair windings, couplings under the action of internal pressure. State Research Program “Mechanics, Technical Diagnostics, Metallurgy”; Jan. 2016 – Dec. 2019. 5. Modeling of the three-dimensional Stress-Strain State and the State of Damage of the system asphalt-concrete / tire, taking into account the contact interaction of its elements. State Research Program “Mechanics, Technical Diagnostics, Metallurgy”; Jan. 2016 – Dec. 2019. Research Projects for Industry "Development of Methods of Calculation, Assessment of Stress-Strain State and the State of Damage of the Knife (iron VCHTG) - Clamp (steel) System of the Cutting Instrument of Forage Harvester" . Contract between Belarusian State University and Production Association «Gomselmash» (2011). "Development of Computer Models and Programs for the Calculation and Prediction of Mechanical States of Tribo-Fatigue System Counter- Bar / Knife / Clamp / Base / Bolts of Cutting Instrument in Dynamic Statement" Contract between Belarusian State University and Production Association «Gomselmash» (2012-2013). "Finite element modeling of Spatial Stress-Strain State of the main pipeline section, taking into account the effect of corrosion defects and various repair technologies". Contract between Belarusian State University and S&P Group TRIBO-FATIGUE Ltd. (2016-2017). "Analysis of boring bar front-end support of heavy-duty horizontal boring lathe". Contract between Belarusian State University and Harbin University of Science and Technology (2016-2017). Grants Grant of Ministry of Education of the Republic of Belarus, 2012 Numerical, Analytical and Computer Modeling of Spatial Damage of the Knife-Clamp System of Forage Harvester with the Account of Contact Interaction and Influence of Non-Contact Loads. Grant of Belarusian State University, 2012. Numerical, Analytical and Computer Modeling of the Stress-Strain State and Spatial Damage in the Neighborhood of Crack Tip for Standard Specimens. Grant of Ministry of Education of the Republic of Belarus, 2013. Modeling of Spatial Stress-Strain State and the State of Damage on the vicinity of the Propagating Crack. Grant of Belarusian State University, 2013. Boundary Element Modeling of Stress-Strain State of Tribo-Fatigue Systems. Joint Project of Belarusian Republican Fund of Fundamental Research and Russian Fund of Fundamental Research "Fundamental Laws of Damage Accumulation, Reaching the Limiting States of Objects under the Combined Multiparameter Effects of Force and Environment Factors" (2014-2015). Grant of Ministry of Education of the Republic of Belarus, 2015. Stress-Strain State and the State of Damage in the vicinity of the Propagating Crack, defined by various criteria. Project of Belarusian Republican Fund of Fundamental Research "Stress-Strain State under mechanical and shock thermal loads, taking into account the contact interaction between bodies and their nonlinear characteristics of heat transfer" (2015-2017). 11. Development and application of methodology for modeling complex mechanical systems subject to fatigue, thermal and frictional loading using mechanothermodynamic entropy (2019 –2021). 12. Three-dimensional stress-strain state and volumetric damageability of tribo-fatigue wheel-rail system with account of contact interaction between its elements, rail bending by train and application of MONICA material for cast rails production (2019 –2021).
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Publications Books 1. M. Zhuravkov, S. Sherbakov, D. Marmysh, L. Shemet, A. Nasan. Fundamentals and applied tribo-fatigue problems. Minsk, BSU, 2017. – 167 p. [in Russian] Scientific articles 2. Shemet L., Sherbakov S. Simulation of crack propagation basing on the model of a solid with dangerous volume// Materials of 5th Junior Researchers Conference “European and national context in research”, 24-25 april, 2013, Novopolotsk / Publ. Board: D. Lazouski, D. Hlukhau, S. Piashkun. –Novopolotsk: PSU, 2013. –P.3 –С. 147-150. 3. M. Zhuravkov, S. Sherbakov, A. Nasan, D. Marmysh, S. Shemet, Y. Kuznetsova. Volumetric damageability of the knife and the counter beam of the cutting apparatus of the harvester in a dynamic setting / Current issues of mechanical engineering, №4, 2015. – P. 232-236. [in Russian] 4. M. Zhuravkov, S. Sherbakov, D. Marmysh, A. Nasan, S. Shemet. Damageability as a measure of damage at the macro and micro levels / Current issues of mechanical engineering, №4, 2015. – P. 237-240. [in Russian] 5. Bahdanovich A., Research on Tensile Behaviour of New Structural Material MoNiCa / A. Bahdanovich, R. Bendikiene, R. Cesnavicius, A. Ciuplys, V. Grigas, A. Jutas, D. Marmysh, A. Mazaleuski, A. Nasan, L. Shemet, S. Sherbakov, K. Spakauskas, L. Sosnovskiy // Materials Science (Medžiagotyra). – 2019. – Vol. 25, No. 3. – P. 292–296. 6. Bendikiene R., Tribo-fatigue Behavior of Austempered Ductile Iron MoNiCa as New Structural Material for Rail-wheel System/R. Bendikiene, A. Bahdanovich, R. Cesnavicius, A. Ciuplys, V. Grigas, A. Jutas, D. Marmysh, , A. Nasan, L. Shemet, S. Sherbakov, L. Sosnovskiy // Materials Science (Medžiagotyra). – Vol. 26, No. 4 (2020). – P. 432–437. 7. Sherbakov S.S., Shemet L.A., Nasan A.A. Computer modeling of volumetric damageability in the mine roadway neighbourhood/ Doklady BGUIR.2020; 18(7): 52-59. [in Russian] 8. Sherbakov S., Comparison of Stress-Strain States of Rail-Wheel Pair Made of Steel and MoNiCa / S. Sherbakov, A. Bahdanovich, A. Nasan, D. Podgayskaya, L. Shemet, Z. Wen, X. Zhao, R. Bendikiene, A. Ciuplys, A. Jutas // Solid State Phenomena. – Vol. 320 (2021). – P. 14–19.
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