Innovative approach to the development of shock and vibration protection systems based on elastomeric energy-absorbing elements

The study addresses the current issues of designing modern shock and vibration protection systems (SVPS), as well as the energy-absorbing devices (EADs) used in them. The task is set to develop a universal scientific and methodological apparatus for automating the design of SVPS based on elastomeric energy-absorbing elements. An innovative approach to SVPS synthesis using modern object-oriented analysis, design, and modeling technologies is proposed. A variant of implementing the proposed approach for the synthesis of the configuration and determination of parameters of SVPS and EAD is considered

Keywords: configuration synthesis, damping system, energy-absorbing device, damper, optimization, engineering software, mathematical modeling, machine learning.

References

  1. Government of the Russian Federation. Decree No. 1315-r of May 20, 2023 «On the Approval of the Concept of Technological Development for the Period until 2030».
  2. Abdrahmanova G.I., Bykhovsky K.B., Veselitskaya N.N., Vishnevsky K.O., Gokhberg L.M., et al. (2021). Digital Transformation of Industries: Initial Conditions and Priorities. Proceedings of the XXII April International Academic Conference on Economic and Social Development, Moscow, April 13—30, 2021. Edited by P.B. Rudnik, L.M. Gokhberg, K.O. Vishnevsky, T.S. Zinina. National Research University Higher School of Economics. Moscow: Higher School of Economics Publishing House.
  3. Borodavkin V.A., Shcheglov D.K. Introduction to Digital Transformation of High-Tech Industry Enterprises: New Approaches // Innovations. 2020. № 12(266), P. 23-32.
  4. Kruglov Y.A., Tumanov Y.A. Shock and Vibration Protection of Machines, Equipment, and Apparatuses. Leningrad: Mashinostroenie. 1986.
  5. Ionov A.V. Means of Vibration and Noise Reduction on Ships. State Scientific Center of the Russian Federation, Central Research Institute named after Academician A.N. Krylov. St. Petersburg. 2000.
  6. Larman C. Applying UML and Patterns: An Introduction to Object-Oriented Analysis and Design and Iterative Development (3rd ed.). Moscow: Williams Publishing, 2013.
  7. Rumbaugh J. The Unified Modeling Language reference manual. — Pearson Education India, 2005.
  8. Gamma E., Helm R., Johnson R., & Vlissides J. Design Patterns: Elements of Reusable Object-Oriented Software. Saint Petersburg: Piter, 2015.
  9. Odepack, a FORTRAN77 code which implements a variety of solvers for ordinary differential equations, by Alan Hindmarsh. URL: https://people.sc.fsu.edu/~jburkardt/f77_src/odepack/odepack.html (Accessed date: 01.06.2022).
  10. Vasiliev A.V., Shcheglov D.K., Fedorov D.A., Danilov A.A., Andronnikov G.E.. Choosing Optimal Software for Numerical Modeling of Energy-Absorbing Elements of Promising Special Object Damping Systems in the Context of Import Substitution of Engineering Analysis Tools. // Bulletin of the Concern VKO «Almaz — Antey». 2022. №3, P. 5-21.
  11. Floudas C.A., Pardalos P.M. (ed.). Encyclopedia of optimization. — Springer Science & Business Media, 2008.
  12. Jutte C.V., Kota S. Design of nonlinear springs for prescribed load-displacement functions. — 2008.
  13. Karpenko A.P. Modern Optimization Search Algorithms: Nature-Inspired Algorithms. Moscow: Bauman Moscow State Technical University Publishing House, 2017.
  14. Simon D. Evolutionary optimization algorithms: biologically-Inspired and population-based approaches to computer intelligence. Hoboken, New Jersey: John Wiley & Sons Inc, 2013.

Authors