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Publications in Math-Net.Ru
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Thermal expansion of microand nanocrystalline $\rm HfB_2$
TVT, 57:1 (2019), 37–41
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High-melting-point compounds: new approaches and new results
UFN, 187:3 (2017), 296–310
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Shock-wave-induced grain refinement and phase state modification in coarse-grained and nanocrystalline titanium
Pisma v Zhurnal Tekhnicheskoi Fiziki, 42:18 (2016), 63–71
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Nanostructured titanium, zirconium and hafnium diborides: the synthesis, properties, size effects and stability
Usp. Khim., 84:5 (2015), 540–554
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Thermal stability of consolidated metallic nanomaterials
Usp. Khim., 83:4 (2014), 365–375
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Nanostructures under extremes
UFN, 184:10 (2014), 1017–1032
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Metallic nano/microglasses: new approaches in nanostructured materials science
UFN, 183:3 (2013), 277–285
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Micro- and nanosized boron carbide: synthesis, structure and properties
Usp. Khim., 81:6 (2012), 549–559
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Hydrogen in metallic nanomaterials
Usp. Khim., 80:9 (2011), 890–904
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Nano-sized silicon carbide: synthesis, structure and properties
Usp. Khim., 78:9 (2009), 889–900
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Strength of nanostructures
UFN, 179:4 (2009), 337–358
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Hydrogen in nanostructures
UFN, 177:7 (2007), 721–735
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Nanomaterials based on high-melting carbides, nitrides and borides
Usp. Khim., 74:12 (2005), 1163–1175
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Thermal stability of nanomaterials
Usp. Khim., 71:10 (2002), 967–981
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The synthesis and properties of interstitial phase films
Usp. Khim., 66:1 (1997), 57–77
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Silicon nitride: synthesis and properties
Usp. Khim., 64:4 (1995), 311–329
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The synthesis and properties of nanocrystalline refractory compounds
Usp. Khim., 63:5 (1994), 431–448
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Vapor-pressure and evaporation coefficient of boron
TVT, 20:5 (1982), 862–865
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Evaporation of tungsten in a vacuum at low-pressures of hydrogen and water-vapor
TVT, 19:4 (1981), 762–767
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К расчету парциальных давлений паров в трехкомпонентных тугоплавких соединениях
TVT, 11:2 (1973), 419–422
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О теплопроводности тугоплавких соединений
TVT, 10:1 (1972), 187–189
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