Vitaly Miroshnikov

Doctor of Engineering, Head of the Department of Aircraft Strength, National Aerospace University "Kharkiv Aviation Institute".

Research profile:

Research profile (Orcid, Google Scholar, Scopus authors, others):

ORCID: https://orcid.org/0000-0002-9491-0181;

Scopus: https://www.scopus.com/authid/detail.uri?authorId=57203680484

ResearcherID: https://www.webofscience.com/wos/author/record/2373757

Google Scholar: https://scholar.google.com/citations?authuser=1&user=ja4FOTgAAAAJ

 

Academic titles:

Candidate of Technical Sciences in Mechanics of Deformable Solids

Doctor of Technical Sciences in Mechanics of Deformable Solids

 

Publications included in Web of Science and Scopus:

  1. Protsenko V., Miroshnikov V. Investigating a problem from the theory of elasticity for a half-space with cylindrical cavities for which boundary conditions of contact type are assigned. Eastern-European Journal of Enterprise Technologies. Applied mechanics. Kharkiv, 2018. Vol. 4, №7. P. 43 – 50. doi: https://doi.org/10.15587/1729-4061.2018.139567
  2. Miroshnikov, V. Yu., Medvedeva, A. V., Oleshkevich, S. V.: Determination of the Stress State of the Layer with a Cylindrical Elastic Inclusion. In: International Conference on Actual Problems of Engineering Mechanics, pp. 413-420. Materials Science Forum 968, Ukraine (2019). https://doi.org/10.4028/www.scientific.net/MSF.968.413
  3. Miroshnikov V. Yu. The study of the second main problem of the theory of elasticity for a layer with a cylindrical cavity. Strength of Materials and Theory of Structures. 2019. №102. P. 77–90. https://doi.org/10.32347/2410-2547.2019.102.77-90
  4. Miroshnikov V. Yu. Stress State of an Elastic Layer with a Cylindrical Cavity on a Rigid Foundation. International Applied Mechanics. 2020. - 56, №3. - С.372-381. DOI: 10.1007/s10778-020-01021-x
  5. Miroshnikov V. , Denysova T., Protsenko V. The study of the first main problem of the theory of elasticity for a layer with a cylindrical cavity. Strength of Materials and Theory of Structures. 2019. №103. P. 208–218. DOI: https://doi.org/10.32347/2410-2547.2019.103.208-218
  6. Miroshnikov, V. Investigation of the stress state of a composite in the form of a layer and a half space with a longitudinal cylindrical cavity at stresses given on boundary surfaces. Journal of Mechanical Engineering. 2019. Vol. 22, N 4. P. 24-31. https://doi.org/10.15407/pmach2019.04.024
  7. Miroshnikov V.Yu., Denisova T.V. Investigation of the second main problem of elasticity for a layer with n cylindrical inclusions. Strength of Materials and Theory of Structures: Scientific and technical collected articles. 2021. - Issue 106. - Р. 156-166. DOI: https://doi.org/10.32347/2410-2547.2021.106.156-166
  8. Miroshnikov, V., Savin, O., Younis, B., Nikichanov, V. (2022).Solution of the problem of the theory of elasticity and analysis of the stress state of a fibrous composite layer under the action of transverse compressive forces. Eastern-Euro-pean Journal of Enterprise Technologies, 4 (7 (118)), 23–30. doi: https://doi.org/10.15587/1729-4061.2022.263460
  9. Miroshnikov V., Younis B., Savin O., Sobol V. A linear elasticity theory to analyze the stress state of an infinite layer with a cylindrical cavity under periodic load. Computation, 2022, 10(9), 160. https://doi.org/10.3390/computation10090160
  10. Vitaly, M. (2023). Rotation of the Layer with the Cylindrical Pipe Around the Rigid Cylinder. In: , et al. Advances in Mechanical and Power Engineering . CAMPE 2021. Lecture Notes in Mechanical Engineering. Springer, Cham, pp 314–322. https://doi.org/10.1007/978-3-031-18487-1_32
  11. Vitaly Miroshnikov, Oleksandr Savin, Volodymyr Sobol, Basheer Younis. Method of solution of a dynamic creep-damage problem for beams bending. Reliability and durability of railway transport engineering structure and buildings 17–19 november 2021, Kharkiv, Ukraine, AIP Conference Proceedings 2684, 030026 (2023). https://doi.org/10.1063/5.0120566
  12. Ali Adil Khalid Ali, Igor Shumakov, Vitalij Miroshnikov, Basheer N. Younis, Oleksandr Savin. Production of cost-effective concrete bored hollow-section piles by vibrovacuumizing. Reliability and durability of railway transport engineering structure and buildings 17–19 november 2021, Kharkiv, Ukraine, AIP Conference Proceedings 2684, 030002 (2023). https://doi.org/10.1063/5.0121287
  13. Miroshnikov, V.; Savin, O.; Sobol, V.; Nikichanov, V. Solving the Problem of Elasticity for a Layer with N Cylindrical Embedded Supports. Computation. 2023, 11, 172. https://doi.org/10.3390/computation11090172

 

Publications in professional journals and publications listed in scientometric databases:

  1. Мирошников В.Ю., Денисова Т. В., Проценко В. С. Граничные условия контактного типа в задаче о круговой цилиндрической полости в упругом пространстве // Открытые информационные и компьютерные интегрированные технологии. Харків, 2018. Вип. 81. С. 121–128.
  2. Мирошников В.Ю. Задача теории упругости для пространства с цилиндрическими полостями и различными краевыми условиями // Науковий вісник будівництва. Харків, 2018. Т. 93. №3. С. 155–163.
  3. Мірошніков В.Ю. Друга основна задача теорії пружності у півпросторі з декількома паралельними круговими циліндричними порожнинами // Открытые информационные и компьютерные интегрированные технологии. Харків, 2018. Вип. 79. С. 88–99.
  4. Мірошніков В.Ю. Перша основна задача теорії пружності у півпросторі з декількома паралельними круговими циліндричними порожнинами // Проблеми машинобудування. Харків, 2018, Т. 21. № 2. С. 12–18.
  5. Miroshnikov V. YU. Evaluation of the stress-strain state of half-space with cylindrical cavities // Bulletin of the Dnipro University. Series: Mechanics. Dnipro, 2018. Vol. 26. No. 5. P. 109–118.
  6. Мірошніков, В.Ю. Змішана задача теорії пружності для півпростору з циліндричними порожнинами та деякими крайовими умовами контактного типу // Науковий вісник будівництва. Харків, 2018. Т. 94. №4. С. 82–94.
  7. Miroshnikov V. Yu. Investigation of the Stress Strain State of the Layer with a Longitudinal Cylindrical Thick-Walled Tube and the Displacements Given at the Boundaries of the Layer // Journal of Mechanical Engineering. Kharkiv, 2019. Vol. 22. No. 2. P. 44–52.
  8. Miroshnikov V. Yu. Investigation of the second main problem of the theory of elasticity for a layer with several cylindrical cavities // Mechanics and Advanced Technologies. Kyiv, 2019. No. 86 (2). P. 50–55.
  9. Мірошніков В.Ю. Змішана задача теорії пружності для шару з циліндричним включенням // Науковий вісник будівництва. Харків, 2019. Т. 2, №2(96). С. 247–252.
  10. Miroshnikov V. Y. Determination of stress state for a layer with a longitudinal cylindrical thick-walled tube under given mixed conditions on boundary surfaces // Сolloquium-journal. Warszawa, 2019. No. 22 (46). P. 38–42.
  11. Miroshnikov V. Determination of the stress state of a layer with a cylindrical cavity, located on an elastic base and given boundary conditions in the form of displacements // European Journal of Technical and Natural Sciences. Section 3. Machinery construction. Vienna. 2019. No. 5–6. P. 21–25.
  12. Miroshnikov V. Yu. Determination of the stress state of a layer with a cylindrical cavity located on an elastic base and specified boundary conditions in the form of stresses // Сolloquium-journal. Warszawa, 2019. No. 18 (42). P. 50–55.
  13. Мірошніков В.Ю. Определение напряженного состояния композита в виде слоя и полупространства с цилиндрической полостью, при заданных на граничных поверхностях перемещениях // Науковий вісник будівництва. Харків, 2019. Т. 97. №3. С. 59–64.
  14. Miroshnikov V.Yu. Investigation of the stress state of a composite in the form of a layer and a half space with a longitudinal cylindrical cavity at stresses given on boundary surfaces // Journal of Mechanical Engineering. Kharkiv, 2019. Vol. 22, No. 4. P. 24–31.
  15. Мірошніков В.Ю. Дослідження напруженого стану багатошарового середовища, що складається з шару і півпростору з циліндричним включенням // Науковий вісник будівництва. 2019. Т. 98. №4. С. 218–223.
  16. Miroshnikov V. Yu. Investigation of the stress state of a multilayer medium consisting of a layer, half-space and a cylindrical pipe, with displacements specified on the boundary surfaces // Journal of Advanced Research in Technical Science. Seattle, 2019. Iss. 16. P. 15–23.
  17. Miroshnikov V. Yu. Investigation of the stress state of a composite consisting of a layer and a half-space with a cylindrical pipe when stresses are set on the boundary surfaces // Сolloquium-journal. Technical science. Warszawa, 2019. No. 24 (48). P. 61–66.
  18. Miroshnikov V. Yu. Determination of the stress state of the medium in the form of a layer having a cylindrical inclusion and conditions for smooth contact with half-space // Сolloquium-journal. Technical science. Warszawa, 2019. No. 20 (44). P. 33–37.
  19. Miroshnikov V. Yu., Protsenko V.S. Determining the stress state of a layer on a rigid base weakened by several longitudinal cylindrical cavities // Journal of Advanced Research in Technical Science. Seattle, 2019. Iss. 17. P.11–21.
  20. Miroshnikov V. Yu. Investigation of the stress state of the composite in the form of a half-space and a layer with a cylindrical pipe, with displacements specified on the boundary surfaces // Сolloquium-journal. Technical science. Warszawa, 2019. No. 21 (45). P. 14–19.
  21. Miroshnikov V. Yu. The third main task of the theory of elasticity for a two-layer medium with a longitudinal cylindrical cavity // Сolloquium-journal. Technical science. Warszawa, 2020. No. 1 (53). P. 6–11.
  22. Miroshnikov V. Yu. On computation of the stress-strain state of a space weakened by a system of parallel circular cylindrical cavities with different edge condition // Science and practice: a new level of integration in the modern world: 4th Intern. Conf. / Sheffield, UK. 2017. P. 77–83.
  23. Miroshnikov V. Yu. The solution of the problem of elasticity theory for a half-space with a longitudinal cylindrical pipe and an elastic layer linked to the half-space, with displacements given on the boundary surfaces // 9th Intern. Conf. Science and practice: a new level of integration in the modern world / Scope academic house. Sheffield, UK, 2019. P. 195–201.
  24. Miroshnikov V. Yu. The third main task of the theory of elasticity for a two-layer medium with a longitudinal cylindrical cavity. Сolloquium-journal. Technical science. Warszawa, 2020. №1 (53). P.7–12. DOI: 10.24411/2520-6990-2019-11166
  25. Проценко В.С, Мирошников В. Ю, Денисова Т.В. Об одном подходе к обоснованию обобщенного метода фурье решения краевых задач математической физики. Сolloquium-journal. Physics and mathematics. Warszawa, 2020. №4 (56). P.43–50. DOI: 10.24411/2520-6990-2020-11349
  26. Мірошніков В.Ю., Олешкевич С.В., Медведєва А.В. Друга основна задача теорії пружності для шару з двома поздовжніми циліндричними включеннями. Науковий вісник будівництва. Харків, 2020. Т. 99, №1. С. 131–137. DOI: 10.29295/2311‒7257‒2020‒99‒1‒131‒137
  27. Мірошніков В.Ю., Олешкевич С.В., Медведєва А.В., Савін О.Б. Дослідження першої основної задачі теорії пружності для шару з трьома поздовжніми циліндричними порожнинами. Науковий вісник будівництва. Харків, 2021. Т. 103, №1. С. 150–155. DOI: doi.org/10.29295/2311-7257-2021-103-1-150-155
  28. Miroshnikov V. Yu. Investigation of Stress State of the Layered Composite with a Longitudinal Cylindrical Cavity. Journal of Solid Mechanics Vol. 13, No. 3 (2021) pp. 297-304 DOI: 10.22034/jsm.2021.1879427.1502
  29. Miroshnikov V. Yu. , Savin O. B. , Hrebennikov M. M., Pohrebniak O. A. Analysis of the stress state of a layer with two cylindrical elastic inclusions and mixed boundary conditions. J. of Mech. Eng., 2022, vol. 25, no. 2, pp. 22-29. DOI: 10.15407/pmach2022.02.022
  30. Miroshnikov, V. Yu., Savin, O. B., Hrebennikov, M. M., & Demenko, V. F. (2023). Analysis of the stress state for a layer with two incut cylindrical supports. Journal of Mechanical Engineering – Problemy Mashynobuduvannia, vol. 26, no. 1, pp. 15–22. https://doi.org/10.15407/pmach2023.01.015.

 

Certification training:

2021 - ISMA University of Applied Science, EU universities