Бурлаенко Вячеслав Николаевич

BurlayenkoБурлаенко Вячеслав Николаевич,

кандидат технических наук, доцент.

  кафедра прикладной математики, учебный корпус У-2, ком. 403, НТУ ХПИ, ул. Кирпичова 2, Харьков 61002, Украина

   +38057 707 60 32

   Viacheslav.Burlaienko@khpi.edu.ua,  burlayenko@yahoo.com

Вячеслав Николаевич Бурлаенко на ResearchGate; Scopus; GoogleScholar

Работает на кафедре прикладной математики с 1999 года. На должности доцента с сентября 2002 года. Преподает курс высшей математики на различных факультетах университета: “Бизнес и финансы” и “Органическая химия” (на английском языке), “Интегрированные технологии и химическая техника”, “Инженерно-физический”, “Энергомашиностроение” и др.

Выпускник 1993 г. инженерно-физического факультета ХПИ (нынешний Национальный Технический Университет ХПИ) по специальности “Динамика и прочность машин”, имеет квалификацию “Инженер-механик-исследователь” (диплом с отличием). В 1999 г. защитил кандидатскую диссертацию на тему «Разработка метода расчета ползучести и длительной прочности тонкостенных элементов конструкций при циклическом нагружении» в специализированном Ученом совете Института проблем машиностроения им. А.Н. Подгорного по специальности 01.02.04 – Механика деформированного твердого тела. В 2005 г. ему присвоено ученое звание доцента кафедры прикладной математики НТУ ХПИ.

Область научных интересов: нелинейная механика ползучести и разрушения, нелинейная динамика с учетом контакта и трения, прочностной анализ композиционных материалов, численные методы. С 1999 по 2003 гг. был дважды премирован стипендией Кабинета Министров Украины для молодых учёных. В 2000 г. и 2019 г. был стипендиатом научной программы DAAD (Германская служба академических обменов), в 2003 г. получил одногодовой грант в рамках программы INTAS-Young (Международная организация содействия сотрудничества с учеными стран СНГ). Принимал участие как исследователь в двух международных научных проектах финансируемых Шестой (FP6) и Седьмой (FP7) Рамочными программами Европейского Союза в 2008 и 2010 гг., соответственно. В 2015 г. получил грант Немецкого научно-исследовательского сообщества (DFG) на трех месячные научные исследования в Университете им. Отто фон Герике Магдебурга, г. Магдебург, Германия, а в 2015-2016 гг. был приглашен на 10 месяцев с академическим визитом в рамках международной программы Erasmus Mundus ACTIVE post-doc exchange в Университет Саутгемптона, г. Саутгемптон, Англия. Имеет более 70 научных публикаций, в том числе и в зарубежных изданиях, а также 2 учебно-методических пособия в соавторстве. Принимает активное участие в работе международных научных конференций и семинаров.

В. Н. Бурлаенко имеет членство в нескольких международных научных обществах – Немецкое общество прикладной математики и механики (GAMM), а также Европейское общество механики (EUROMECH).

ОСНОВНЫЕ ПУБЛИКАЦИИ
  1. Burlayenko V. N., Sadowski T., Altenbach H. Efficient free vibration analysis of FGM sandwich flat panels with conventional shell elements, Mechanics of Advanced Materials and Structures (2021) DOI: 10.1080/15376494.2021.1909191
  2. Burlayenko, V.N. A continuum shell element in layerwise models for free vibration analysis of FGM sandwich panels. Continuum Mech. Thermodyn. (2021). https://doi.org/10.1007/s00161-021-00981-w
  3. Burlayenko V.N., Altenbach H., Dimitrova S.D. (2020) Interface Strength Assessments of Sandwich Panels with a Face Sheet/Core Debond. In: Altenbach H., Chinchaladze N., Kienzler R., Müller W. (eds) Analysis of Shells, Plates, and Beams. Advanced Structured Materials, vol 134. Springer, Cham.
  4. Burlayenko V.N., Sadowski T., Dimitrova S.D. (2020) Nonlinear Fracture Dynamic Analysis of Double Cantilever Beam Sandwich Specimens. In: Lacarbonara W., Balachandran B., Ma J., Tenreiro Machado J., Stepan G. (eds) New Trends in Nonlinear Dynamics. Springer, Cham.
  5. Burlayenko, V.N., Sadowski, T. Free vibrations and static analysis of functionally graded sandwich plates with three-dimensional finite elements. Meccanica 55, 815–832 (2020).
  6. Burlayenko V.N., Sadowski T., Dimitrova S. Three-dimensional free vibration analysis of thermally loaded FGM sandwich plates. Materials 12(15)  (2019) 2377.
  7. Burlayenko V.N., Sadowski T., Pietras D. Influence of Dynamic Loading on Fracture Behaviour of DCB Sandwich Specimen, ITM Web Conf. 29 02003 (2019) DOI: 10.1051/itmconf/20192902003
  8. Burlayenko V.N., Pietras D., Sadowski T. Influence of geometry, elasticity properties and boundary conditions on the Mode I purity in sandwich composites. Composite Structures 223, 1 September 2019, 110942.
  9. Burlayenko V.N., Altenbach H., Sadowski T. Dynamic fracture analysis of sandwich composites with face sheet/core debond by the finite element method. In: Altenbach H., Belyaev A., Eremeyev V., Krivtsov A., Porubov A. (eds) Dynamical Processes in Generalized Continua and Structures. Advanced Structured Materials, vol. 103, pp. 163 – 194. Springer, Cham, 2019.
  10. Burlayenko V.N., Sadowski T., Pietras D. A numerical analysis of near tip fields in a bending moment-loaded double cantilever sandwich beam fracture specimen. Bulletin of National Technical University “KhPI”. Series: “Mathematical Modeling in Engineering and Technologies” № 3(1279) (2018) 9-14.
  11. Burlayenko V. N., Sadowski T. Linear and nonlinear dynamic Analyses of sandwich panels with face sheet-to-core debonding. Shock and Vibration, vol. 2018 ( 2018) Article ID 5715863, 26 pages.
  12. Ghazaryan D., Burlayenko V. N., Avetisyana A., Bhaskar A. Free vibration analysis of non-uniform cross-section and axially functionally graded beams using the differential transform method. Journal of Engineering Mathematics 110 (2018) 97–121.
  13. Burlayenko V.N., Altenbach H., Sadowski T., Dimitrova S.D., Bhaskar A. Modelling functionally graded materials in heat transfer and thermal stress analysis by means of graded finite elements. Applied Mathematical Modelling 45 (2017) 422–438.
  14. Burlayenko V.N. Modelling thermal shock in functionally graded plates with finite element method. Advances in Materials Science and Engineering Volume 2016 Issue: Brittle or Quasi-Brittle Fracture of Engineering Materials (2016), Article ID 7514638, 12 pages.
  15. Burlayenko V.N., Altenbach H., Sadowski T., Dimitrova S.D. Computational simulations of thermal shock cracking by the virtual crack closure technique in a functionally graded plate. Computational Materials Science Volume 116 (2016) 11–21.
  16. Burlayenko V.N., Altenbach H., Sadowski T. An evaluation of displacement-based finite element models used for free vibration analysis of homogeneous and composite plates. Journal of Sound and Vibration 358(8) (2015) 152-175.
  17. Burlayenko V.N., Sadowski T. Simulations of post-impact skin/core debond growth in sandwich plates under impulsive loading. Journal of Applied Nonlinear Dynamics 3(4) (2014) 369–379.
  18. Burlayenko V.N., Sadowski T. Transient dynamic response of debonded sandwich plates predicted with finite element analysis. Meccanica 49(11) (2014)  2617-2633.
  19. Burlayenko V.N., Sadowski T. Nonlinear dynamic analysis of harmonically excited debonded sandwich plates using finite element modelling. Composite Structures 108 (2014) 354–366.
  20. Burlayenko V.N. , Sadowski T., Modeling of the dynamic debonding growth of sandwich plates // In: Proceedings of the 4th International Conference on Nonlinear Dynamics ND-KhPI 2013, June 19-22, 2013, Sevastopol, Ukraine, Yu.V. Mikhlin and N.V. Perepelkin (eds.) ISBN 978-617-669-100-6, pp. 225-230.
  21. Burlayenko V.N., Sadowski T. Finite element nonlinear dynamic analysis of sandwich plates with partially detached facesheet and core. Finite Elements in Analysis & Design 62 (2012) 49–64.
  22. Burlayenko V.N., Morachkovski O.K. Finite element model of nonlinear dynamics of continuum with a breathing crack. Bulletin of the National Technical University ‘Kharkiv Polytechnic Institute’, Mathematical Modeling in Engineering and Technology, N 2, – Kharkiv, 2012, p. 44–51. (in Ukrainian).
  23. Burlayenko V.N., Sadowski T. A numerical study of the dynamic response of sandwich plates initially damaged by low velocity impact. Computational Materials Science 52(1) (2012) 212–216.
  24. Burlayenko V.N., Morachkovski O.K. Using kinematical contact algorithm with explicit time stepping for finite element predictions of dynamics of continuum with a crack. Bulletin of the National Technical University ‘Kharkiv Polytechnic Institute’, Mathematical Modeling in Engineering and Technology, N 54 (960), – Kharkiv, 2012, p. 19–25. (in Ukrainian).
  25. Burlayenko V.N., Sadowski T. Dynamic behavior of sandwich plates containing single/multiple debonding, Computational Materials Science 50 (2011) 1263–1268.
  26. Burlayenko V.N., Sadowski T. Numerical Modeling of Sandwich Plates with Partially Dedonded Skin-to-Core Interface for Damage Detection// In: Proceedings of the 8th International Conference on Structural Dynamics EURODYN 2011, 4 – 6 July 2011, Leuven, Belgium, G. De Roeck, G. Degrande, G. Lombaert, G. Muller (Eds.) ISBN-978-90-760-1931-4, pp. 2242-2249.
  27. Burlayenko V.N., Sadowski T. Post-impact dynamic response of sandwich plates with foam and non-metallic honeycomb cores// In: Proceedings of the 7th European Nonlinear Dynamics Conference ENOC 2011, 24 – 29 July 2011, Rome, Italy, D. Bernardini, G. Rega and F. Romeo (Eds.) ISBN: 978-88-906234-2-4, 6 pages.
  28. Burlayenko V.N., Sadowski T., Nazarenko S.A. Numerical modeling of dynamics of sandwich plates with partially damaged facesheet-to-core interface// In: Contemporary problems of mathematics, mechanics and computing sciences, N.N. Kizilova and G.N. Zholtkevych (eds.) Publishing house PPB Virovec’ A.P., Kharkov, 2011, pp. 13-25.
  29. Burlayenko V.N., Sadowski T. Dynamic analysis of debonded sandwich plates with flexible core – Numerical aspects and simulation. Advanced Structured Materials, Volume 15, Shell-like Structures, H. Altenbach and V.A. Eremeyev (eds.) Springer-Verlag 2011. Part V, pp. 415-440.
  30. Burlayenko V.N., Sadowski T. Effective Elastic Properties of Foam-Filled Honeycomb Cores of Sandwich Panels, Composite Structures 92 (2010)  2890–2900.
  31. Burlayenko V.N., Sadowski T. Influence of skin/core debonding on free vibration behavior of foam and honeycomb cored sandwich plates. International Journal of Non-Linear Mechanics 45(10) (2010) 959–968.
  32. Burlayenko V.N., Sadowski T. Application of Homogenization FEM Analysis to Aluminum Honeycomb Core Filled with Polymer. Wiley’s Webserver Wiley-InterScience in the PAMM, Volume 10, Issue 1, December 2010, p. 403–404.
  33. Burlayenko V.N., Sadowski T. FE Modeling of Dynamics of Impact-Damaged Sandwich Plates with Intermittent Contact in Detached Fragments. In: Chapter 6, Monograph of Aspects of fracture and cutting mechanics of materials. Edited by J. Jonak, Lubelskie Towarzystwo Naukowe, Lublin 2010, pp. 71-79.
  34. Burlayenko V.N., Sadowski T. Free vibration of sandwich plates with impact-induced damage. Wiley’s Webserver Wiley-InterScience in the PAMM, Volume 9, Issue 1, March 2010, p. 179-180.
  35. Burlayenko V.N., Sadowski T. Numerical modal analysis of sandwich plates partially damaged due to impacts. In: Proceedings of 3rd International Conference Nonlinear Dynamics, ND-KhPI 2010, September 21-24, 2010, Kharkov, Ukraine, pp. 284-289.
  36. Nazarenko S.A., Burlayenko V.N. Mathematical models for identification of defects in products, High Technologies of Machine-building, Collective Volume of Kharkiv NTU «KhPI» 1(20), 2010 150-157. (In Russian)
  37. Burlayenko V.N., Sadowski T. Analysis of structural performance of aluminum sandwich plates with foam-filled hexagonal honeycomb core. Computational Materials Science, Volume 45, Issue 3, May 2009, p. 658-662.
  38. Burlayenko V.N., Sadowski T. Numerical studies of the dynamic behaviour of sandwich plates initially weakened by the impact damage. In: Proceedings of the 10th Conference on Dynamical Systems – Theory and Applications, DSTA-2009, December 7-10 Łódź, Poland, pp. 394-407.
  39. Burlayenko V.N., Sadowski T. Dynamics of sandwich plates weakened by single/multiple debonding. In: Proceedings of 18th International Conference on Computer Methods in Mechanics, CMM 2009, 18-21 May 2009, Zielona Góra, Poland, pp. 139-140.
  40. Burlayenko V.N., Sadowski T. Influence of skin/core debonding on free vibration behavior of foam and honeycomb cored sandwich plates. In: Proceedings of Euromech Colloquium 498 Nonlinear Dynamic of Composite and Smart Structures, May 21-24, 2008, Kazimierz Dolny, Poland, pp. 108-111.
  41. Burlayenko V.N., Sadowski T. FE modeling of delamination growth in interlaminar fracture specimens. Budownictwo i Architektura, Vol. 2(1), 2008, p. 95-109.
  42. Burlayenko V.N., Sadowski T. Finite-element free vibration and buckling analyses of sandwich plates with honeycomb and foam cores. In: Proceedings of the 2nd International Conference Nonlinear Dynamics, September 25-28, 2007, Kharkov, Ukraine, pp. 243-249.