All Stories

  1. Application of the Method of Dynamic Diffractometry Using Synchrotron Radiation to Study Phase Formation Processes during the Synthesis of a Mechanically Activated Ti–Al–C Mixture

    Article • Journal of Surface Investigation X-ray Synchrotron and Neutron Techniques, June 2025, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  2. Thermal Modes of Synthesis in Mechanoactivated Powder Mixture Ti + Al

    Article • Journal of Surface Investigation X-ray Synchrotron and Neutron Techniques, December 2024, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  3. Phase State of Reaction Products of a Mechanically Activated Ti $${+}$$ Al Mixture Synthesized during Gas Mixture Detonation

    Article • Combustion Explosion and Shock Waves, October 2024, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  4. In situ synchrotron X-ray diffraction study of synthesis reactions in mechanically activated Ti + Al powder mixture under linear heating conditions

    Article • Solid State Ionics, September 2024, Elsevier

    Dr Alexey Sobachkin

  5. ЭВОЛЮЦИЯ СТРУКТУРЫ ПОРОШКОВОЙ СМЕСИ СОСТАВА Ti+Al В ПРОЦЕССЕ МЕХАНИЧЕСКОЙ АКТИВАЦИИ

    Article • Фундаментальные проблемы современного материаловедения, September 2023, Altai State Technical University

    Dr Alexey Sobachkin

  6. Using Synchrotron Radiation to Investigate Conditions of α2-Phase Formation in Mechanocomposites of a Ti–Al System

    Article • Bulletin of the Russian Academy of Sciences Physics, May 2023, Allerton Press

    Dr Alexey Sobachkin

  7. Critical conditions of forced ignition in Ni-Al, Ti-Al powder systems under solid-phase synthesis

    Article • Combustion and Flame, February 2023, Elsevier

    Dr Alexey Sobachkin

  8. ВЛИЯНИЕ ГАММА-ОБЛУЧЕНИЯ МЕХАНОКОМПОЗИТОВ Ti+Al НА ФАЗОВЫЙ СОСТАВ МАТЕРИАЛОВ ПРИ ЭКСТРЕМАЛЬНОМ ТЕРМИЧЕСКОМ ВОЗДЕЙСТВИИ В ПРОТОЧНОМ РЕАКТОРЕ

    Article • Фундаментальные проблемы современного материаловедения, September 2022, Altai State Technical University

    Dr Alexey Sobachkin

  9. In situphase formation during high-temperature synthesis in clad mechanocomposites based on the Ti–Al system

    Article • Journal of Synchrotron Radiation, March 2022, International Union of Crystallography

    Dr Alexey Sobachkin

  10. High-temperature synthesis in TI+AL powder mixture exposed to gamma irradiation. The features of intermetallic phases formation

    Article • Materials Chemistry and Physics, January 2022, Elsevier

    Dr Alexey Sobachkin

  11. Effect of Mechanical Activation and Gamma-Irradiation on Structural-Phase State of Ti-Al-C Powder Reagents

    Article • Defect and Diffusion Forum, August 2021, Trans Tech Publications

    Dr Alexey Sobachkin

  12. Features of High-Temperature Synthesis in Clad Mechanocomposites of Ti-Al System

    Article • Defect and Diffusion Forum, August 2021, Trans Tech Publications

    Dr Alexey Sobachkin

  13. Dynamics of structure formation processes in mechanically activated powder mixture TI+AL under conditions of continuous heating. High temperature stage

    Article • Materials Chemistry and Physics, March 2020, Elsevier

    Dr Alexey Sobachkin

  14. Features of the Formation of Various Functional Coatings of SHS Mechanical Composites Using Gas Detonation Spraying Technology

    Article • Solid State Phenomena, January 2020, Trans Tech Publications

    Dr Alexey Sobachkin

  15. Structure Formation during High-Temperature Synthesis in an Activated Ti + Al Powder Mixture

    Article • Inorganic Materials, November 2019, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  16. Synchrotron in situ studies of mechanical activation treatment and γ-radiation impact on structural-phase transitions and high-temperature synthesis parameters during the formation of γ-(TiAl) compound

    Article • Journal of Synchrotron Radiation, August 2019, International Union of Crystallography

    Dr Alexey Sobachkin

  17. Structural state of the Ti–Al powder mixture at various stages of mechanoactivation treatment

    Article • Powder Metallurgy аnd Functional Coatings, June 2019, National University of Science and Technology MISiS

    Dr Alexey Sobachkin

  18. Adjustment of induction high-temperature synthesis to in situ synchrotron study of SHS-mixtures on the example of Ti-Al system

    Article • IOP Conference Series Materials Science and Engineering, March 2019, Institute of Physics Publishing

    Dr Alexey Sobachkin

  19. Peculiarities of Phase Formation Processes in Activated Ti + Al Powder Mixture during Transition from Combustion Synthesis to High-temperature Annealing

    Article • Combustion Science and Technology, January 2019, Taylor & Francis

    Valeriy Filimonov, Dr Alexey Sobachkin, Sergey Ivanov

  20. In situ synchrotron research of phase formation in mechanically activated 3Ti + Al powder composition during high-temperature synthesis under the condition of heating with high-frequency electromagnetic fields

    Article • Journal of Synchrotron Radiation, January 2019, International Union of Crystallography

    Dr Alexey Sobachkin

  21. X-Ray Diffraction Analysis of the Influence of the Absorbed γ-Irradiation Dose on Ti3Al Structural Characteristics

    Article • Journal of Surface Investigation X-ray Synchrotron and Neutron Techniques, May 2018, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  22. Stimulation of processes of self-propagating high temperature synthesis in system Ti + Al at low temperatures by influence of γ-quanta

    Article • IOP Conference Series Materials Science and Engineering, March 2018, Institute of Physics Publishing

    Dr Alexey Sobachkin

  23. Formation of structural states in mechanically activated powder mixtures Ti + Al exposed to gamma irradiation

    Article • Letters on Materials, January 2018, Institute for Metals Superplasticity Problems of RAS

    Dr Alexey Sobachkin

  24. The evolution of structural and phase states of titanium aluminides after γ irradiation in small doses

    Article • The Physics of Metals and Metallography, February 2017, Pleiades Publishing Ltd

    Dr Alexey Sobachkin

  25. Comparison of Activation Technologies Powder ECP-1 for the Synthesis of Products Using SLS

    Article • Applied Mechanics and Materials, April 2015, Trans Tech Publications

    Dr Alexey Sobachkin

  26. Evaluation of Wear Resistance of Products on the Basis of Mechanically Activated Materials

    Article • Applied Mechanics and Materials, December 2014, Trans Tech Publications

    Dr Alexey Sobachkin

  27. Application of Self-Propagating High-Temperature Synthesis and Mechanoactivating Treatment for Producing Multi-Component Composite Alloying Materials

    Article • Applied Mechanics and Materials, August 2013, Trans Tech Publications

    Dr Alexey Sobachkin

  28. Dynamic diffractometry of phase transformations during high-temperature synthesis in mechanically activated powder systems in the thermal explosion mode

    Article • Bulletin of the Russian Academy of Sciences Physics, February 2013, Allerton Press

    Dr Alexey Sobachkin