Seplyarskii B.S., Kochetkov R.A., Lisina T.G., Abzalov N.I., Vasiliev D.S., “Macrokinetic Mechanism of the Combustion of 5Ti + 3Si Powder and Granular Mixtures: Effects of the Release of Impurity Gas and the Size of Titanium Particles”, Russian Journal of Physical Chemistry A, 96:5 (2022), 977–984
Seplyarskii B.S., Kochetkov R.A., Lisina T.G., Abzalov N.I., Vasilyev D.S., “On the Nature of the Multidirectional Change in Combustion Velocity of Ti-based Powder Mixtures When Diluted with Inert Additives”, International Journal of Self-Propagating High-Temperature Synthesis, 31:4 (2022), 283-287
Seplyarskii B.S., Kochetkov R.A., Lisina T.G., Abzalov N.I., Vasilyev D.S., “Combustion of 5Ti + 3Si Blends: Impact of Granule Diameter and Ti Particle Size”, International Journal of Self-Propagating High-Temperature Synthesis, 31:2 (2022), 104-107
Vasilyev D.S., Seplyarskii B.S., Kochetkov R.A., Lisina T.G., “THE REASON FOR THE INCREASE IN COMBUSTION RATE OF THE POWDER MIXTURE Ti+C DILUTED WITH COPPER”, ADVANCED HIGH ENTROPY MATERIALS
Abstracts of the IV International Conference and School of Young Scientists "Advanced High Entropy Materials" (Chernogolovka, Russia, September 26-30, 2022), 2022, 149
