askerbekov-s 1

1. Analysis of reactor experiments to study the transfer processes of generated tritium in lithium cps (capillary-porous system)
2. Gas release kinetics from neutron irradiated Li₂TiO₃ samples
3. Kinetic analysis of tritium release from irradiated biphasic lithium ceramics Li₄SiO₄-Li₂TiO₃ with different phase ratios
4. Studies of irradiated two-phase lithium ceramics Li₄SiO₄/Li₂TiO₃ by thermal desorption spectroscopy
5. Study of hydrogen sorption and desorption processes of zirconium beryllide ZrBe₂
6. Effects of the Zirconia-Alumina Composite Ceramics with Varying Compositions on Resistance to Helium Swelling
7. Influence of the Change of Phase Composition of (1 − x)ZrO₂–xAl₂O₃ Ceramics on the Resistance to Hydrogen Embrittlement
8. Study of Gas Swelling Processes under Irradiation with Protons and He²⁺ Ions in Li₄SiO₄–Li₂TiO₃ Ceramics
9. Study of Morphological, Structural, and Strength Properties of Model Prototypes of New Generation TRISO Fuels
10. The connection between the accumulation of structural defects caused by proton irradiation and the destruction of the near-surface layer of Li₄SiO₄ – Li₂TiO₃ ceramics
11. The Influence of Accumulated Radiolysis Products on the Mechanisms of High-Temperature Degradation of Two-Component Lithium-Containing Ceramics
12. Comparative analysis of gas release from biphasic lithium ceramics pebble beds of various pebbles sizes and content under neutron irradiation conditions
13. Comparative analysis of high-temperature corrosion processes of beryllides of different compositions
14. Corrigendum to “Comparative analysis of gas release from biphasic lithium ceramics pebble beds of various pebbles sizes and content under neutron irradiation conditions” [Nucl. Mater. Energy 38 (2024) 101583] (Nuclear Materials and Energy (2024) 38, (S235217912400005X), (10.1016/j.nme.2024.101583))
15. Estimation of tritium transfer parameters in biphasic lithium ceramic based on the results of reactor irradiation experiments
16. Features of Helium and Tritium Release from Li₂TiO₃ Ceramic Pebbles under Neutron Irradiation
17. High-temperature corrosion testing of titanium beryllides in the presence of water vapor and oxygen
18. Influence of various gases and water vapors on the processes of tritium release from two-phase lithium ceramics
19. Investigation of hydrogen and deuterium impact on the release of tritium from two-phase lithium ceramics under reactor irradiation
20. Investigation of the interaction of deuterium with Sn₇₃Li₂₇ tin-lithium alloy
21. Investigation of transient processes of tritium release from biphasic lithium ceramics Li₄SiO₄-Li₂TiO₃ at negative neutron flux pulse
22. Reactor experiments on irradiation of two-phase lithium ceramics Li₂TiO₃/Li₄SiO₄ of various ratios
23. Simulation of tritium release processes from lithium ceramics under reactor irradiation conditions with varying reactor power
24. Studies of two-phase lithium ceramics Li₄SiO₄-Li₂TiO₃ under conditions of neutron irradiation
25. Study of isotopic effects of high-temperature corrosion of titanium beryllide Be₁₂Ti in water vapor with different isotopic composition
26. Study of the mechanisms of change in hydride phases in zirconium beryllide during its linear heating
27. Effect of Ca dopant concentration on the change in properties of ZrO₂ ceramics
28. Effect of low-temperature neutron irradiation on the properties of titanium beryllide
29. Effect of neutron irradiation on high-temperature corrosion of titanium beryllide Be₁₂Ti in a steam-argon environment
30. Irradiation experiments of titanium beryllide samples in the WWR-K reactor
31. Kinetics of gas release from titanium beryllide irradiated to different neutron fluences
32. Rig design development for in situ tritium release studies of EU reference ceramic breeders (ACB-TREND)
33. Study on the effect of long-term high temperature irradiation on TRISO fuel
34. Phase Evolution and Synthesis of Be₁₂ Nb Intermetallic Compound in the 800–1300 °C Temperature Range
35. Determination of Tritium Transfer Parameters in Lithium Ceramics Li₂TiO₃ During Reactor Irradiation Based on a Complex Model
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