Основные публикации 1. Surzhikov A. P., Frangylyan T. S., Ghyngazov S.A., and Vasiliev I.P. An investigation of phase stability of a composite ATZ ceramic material // Russian Physics Journal. - 2015 - Vol. 57 - №. 11. - p. 1593-1599. Impact Factor – 0.525 2. Ghyngazov S. A. , Vasil’ev I. P. , Surzhikov A. P. , Franguljyan T. S., and Chernyavskii A. V. Ion Processing of Zirconium Ceramics by High-Power Pulsed Beams // Technical Physics. - 2015 - Vol. 60 - №. 1. - p. 128-132. Impact Factor – 0.539 3. Surzhikov A. P. , Franguljyan T. S. , Ghyngazov S. A. , Vasiljev I. P. Investigation of Low-temperature Aging of Porous Composite Ceramic in the System ZrO2(Y)–Al2O3 // Glass and Ceramics. - 2015 - Vol. 71 - №. 9-10. - p. 373-376. Impact Factor – 0.376 4. Surzhikov A. P. , Ghyngazov S. A. , Franguljyan T. S. , Vasiljev I. P. Thermal transformations in ultrafine plasmochemical zirconium dioxide powders // Journal of Thermal Analysis and Calorimetry. - 2015 - Vol. 119. - Issue 3. - p. 1603-1609. Impact Factor – 2.206 5. Surzhikov A. P. , Franguljyan T. S. , Ghyngazov S. A. Gradient structure formation in the subsurface layers of a ZrO2(Y)–Al2O3 ceramic material under low-energy, high-current electron beams // Russian Physics Journal. - 2014 - Vol. 57 - №. 6. - p. 738-741. Impact Factor – 0.525 6. Surzhikov A. P. , Franguljyan T. S. , Ghyngazov S. A. , Vasiliev I. P. A Dilatometric Study of Sintering of Composite Ceramics Manufactured from Ultrafine ZrO2(Y)–Al2O3 Powders Under Different Thermal-Temporal Firing Conditions // Russian Physics Journal. - 2014 - Vol. 57 - №. 3. - p. 411-415. Impact Factor – 0.526 7. Surzhikov A. P., Frangulyan T. S. , Ghyngazov S. A. , Vasil’ev I. P. The Effect of a Low-Energy High-Current Pulsed Electron Beam on Surface Layers of Porous Zirconium Ceramics // Technical Physics Letters. - 2014 - Vol. 40 - №. 9. - p. 762-765. Impact Factor – 0.583 8. Surzhikov A. P., Frangulyan T. S., Ghyngazov S. A. A thermoanalysis of phase transformations and linear shrinkage kinetics of ceramics made from ultrafine plasmochemical ZrO2(Y)–Al2O3 powders // Journal of Thermal Analysis and Calorimetry. - 2014 - Vol. 115 - №. 2. - p. 1439-1445. Impact Factor – 2.206 9. Surzhikov A. P. , Frangulyan T. S. , Lysenko E. N. , Ghyngazov S. A. Investigation of structural states and oxidation processes in Li0.5Fe2.5O4 using TG analysis // Journal of Thermal Analysis and Calorimetry. - 2012 - Vol. 108 - Issue 3 - p. 1207-1212. Impact Factor – 1.982 10.Surzhikov A. P., Ghyngazov S. A. , Frangulyan T. S. A dilatometric study of the effect of pressing on the kinetics of compression of ultrafine zirconium doxide powders under thermal annealing // Russian Physics Journal. - 2012 - Vol. 55 - №. 4 - p. 345-352. Impact Factor – 0.525 11. Surzhikov A. P. , Frangulyan T. S. , Ghyngazov S. A. , Lysenko E. N. Investigation of structural states and oxidation processes in Li0.5Fe2.5O4 using TG analysis // Journal of Thermal Analysis and Calorimetry. - 2011 Vol. 8, №3. - - p. 1207-1212. Impact Factor – 1.604 12. Surzhikov A. P. , Vasiljev I. P. , Ghyngazov S. A. , Frangulyan T. S. , Chernyavskii A. V. Effect of High Intensity Pulsed Ion Beam of Carbon on Subsurface Layers of Zirconia Ceramics // Advanced Materials Research. - 2015 - Vol. 1085. - p. 270-275. Impact Factor – 0.15 13. Surzhikov A.P., Frangulyan, T.S., Ghyngazov S.A., Lysenko, E.N. Investigation of oxidation processes in non-stoichiometric lithium-titanium ferrites using TG analysis // Journal of Thermal Analysis and Calorimetry. – 2010. – Vol. 102. №3. p. 883-887. Impact Factor – 1.752 14. Ghyngazov S. A. , Vasiljev I. P. , Frangulyan T. S. , Khaydukova V. M. , Mylnikova T. S. Investigation of the structural-phase state of ultrafine plasmochemical ZrO2(Y) powders // IOP Conference Series: Materials Science and Engineering. - 2014 - Vol. 66 - №. 1, Article number 012021. - p. 1-5/ Impact Factor – 0.15. 15. Surzhikov A. P. , Frangulyan T. S. , Ghyngazov S. A. , Vasiljev I. P. Electron Microscopy Studies of Near-Surface Layers of ZrO2(Y)–Al2O3 Composite Ceramic Modified by High Current Beam of Low-Energy Electron // Inorganic Materials: Applied Research. - 2014 - Vol. 5 - №. 5. - p. 536-539. Impact Factor – 0.302.
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