All Stories

  1. Predictive Control of Flow Choking Phenomena in Multimode Propulsion Systems Through the Plasma-Acoustic Coupling Mechanism
  2. Solid Propellant Performance Enhancement Through Synergistic Effect of the Functionalized Carbon-Based Nano-Additives Properties Modification by the Electrostatic Field
  3. Tuning the Spatially Controlled Growth, Structural Self-Organizing and Cluster-Assembling of the Carbyne-Enriched Nanostructured Metamaterials during Ion-Assisted Pulse-Plasma Deposition
  4. Energetic Materials Performance Enhancement Through Predictive Programming the Spatial Structure and Physics-Chemical Properties of the Functionalized Carbon-Based Nano-Sized Additive
  5. Genome Approach and Data Science Methods for Accelerated Discovery of New Solid Propellants with Desired Properties
  6. The Application of Energetic Materials Genome Approach for Development of the Solid Propellants Through the Space Debris Recycling at the Space Platform
  7. New insights into the reactionary zones excited-state programming by plasma-acoustic coupling mechanism for the next-generation small satellite solid propulsion systems
  8. Development of the Multifactor Computational Models of the Solid Propellants Combustion by Means of Data Science Methods. Propellant Combustion Genome Conception
  9. Development of the Multifactorial Computational Models of the Solid Propellants Combustion by Means of Data Science Methods –Phase III
  10. Prediction of Detonation Velocity and N−O Composition of High Energy C−H−N−O Explosives by Means of Artificial Neural Networks
  11. Recent Advancements in Study of Effects of Nano Micro Additives on Solid Propellants Combustion by Means of the Data Science Methods
  12. A novel strategy of smart manipulation by micro-scale oscillatory networks of the reactionary zones for enhanced extreme thrust control of the next-generation solid propulsion systems
  13. Development of the Multifactorial Computational Models of the Solid Propellants Combustion by Means of Data Science Methods – Phase II
  14. Book of Abstracts of the International Conference "Global Challenges and Data-Driven Science"
  15. Development of the Multifactorial Computational Models of the Solid Propellants Combustion by Means of Data Science Methods - Phase I
  16. Universal Concept of Self-Synchronization of the Micro/Nano- Structures of the Energetic Materials Reactionary Zones and Micro-Scale Combustion Mechanisms
  17. Self-organizing of the micro-structures in the reactionary zones of the energetic materials and excitation of the phenomenon of waves of negative erosion
  18. THE INSTABILITY OF PHYSICAL FIELDS IN THE LIQUID-VISCOUS LAYER DURING THE BURNING OF ENERGETIC MATERIALS
  19. UNIVERSAL LAW OF THE SPATIAL-PERIODIC NANO- AND MICRO-STRUCTURES EXCITATION DURING THE TRANSIENT COMBUSTION OF ENERGETIC MATERIALS
  20. Mathematical Modeling of the Development of Anomalous Processes in High-Loading-Density Solid Propulsion Systems
  21. THE ADVANCED TECHNOLOGY OF PREVENTION OF THE ANOMALOUS COMBUSTION REGIMES DEVELOPMENT IN THE SUBMARINE'S BALLISTIC ROCKET WITH LARGE-SIZED SPRM
  22. Mathematical Modelling of Nonstationary Physico Chemical Processes in Large Sized SPRM Pyrotechnical Ignition System
  23. NUMERICAL SIMULATION OF THE NONSTATIONARY SPATIAL GASDYNAMICS PROCESSES ACCOMPANYING THE PELLETIZED SOLID PROPELLANT COMBUSTION IN A GAS GENERATOR
  24. Unsteady-state combustion of a granulated solid propellant in a cylindrical channel