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Publications in Math-Net.Ru
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Calculation and prediction of the thermal distortion temperature of polyamide-$6$/organoclay nanocomposites
TVT, 60:6 (2022), 950–952
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Effect of the nanofiller structure on the heat resistance of polyamide-$6/$organoclay nanocomposites
TVT, 60:1 (2022), 139–141
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The description of the degree of reinforcement of polymer/carbon nanotubes nanocomposites: the “termite” limit
Fizika Tverdogo Tela, 63:9 (2021), 1387–1390
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Physicochemical analysis of the structure and properties of polymer/carbon nanotube nanocomposites obtained from solution
Zhurnal Tekhnicheskoi Fiziki, 91:8 (2021), 1249–1252
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Conditions for obtaining high-modulus polymer/carbon nanotube nanocomposites
Zhurnal Tekhnicheskoi Fiziki, 91:3 (2021), 440–443
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Thermal stability of polymer/organoclay nanocomposites: Structural analysis
TVT, 59:2 (2021), 313–315
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Comparative analysis of the efficiency of carbon nanotubes and graphene in reinforcement of polymer nanocomposites
Fizika Tverdogo Tela, 62:8 (2020), 1240–1243
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Aggregation of nanofiller in polymer/carbon nanotube composites
Prikl. Mekh. Tekh. Fiz., 61:2 (2020), 125–129
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Structural model of the viscosity of polymer melts of nanocomposites: Carbon nanotubes as macromolecular coils
TVT, 58:2 (2020), 306–309
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Reinforcement of polymer/2D filler nanocomposites: basic postulates
Fizika Tverdogo Tela, 61:8 (2019), 1488–1491
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The mechanisms of growth and the structure of 2D-nanofiller clusters in polymer media
Fizika Tverdogo Tela, 61:1 (2019), 178–181
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Structural interpretation of variation in properties of polymer/carbon nanotube nanocomposites near the nanofiller percolation threshold
Zhurnal Tekhnicheskoi Fiziki, 89:10 (2019), 1585–1588
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Viscosity of a melt of polymer/carbon nanotube nanocomposites. An analogy with a polymer solution
TVT, 57:3 (2019), 472–474
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Effect of a nanofiller structure on the degree of reinforcement of polymer – carbon nanotubes nanocomposites with the use of a percolation model
Prikl. Mekh. Tekh. Fiz., 59:4 (2018), 215–220
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Fractal model of the nanofiller structure affecting the degree of reinforcement of polyurethane–carbon nanotube nanocomposites
Prikl. Mekh. Tekh. Fiz., 59:3 (2018), 141–144
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Modeling of carbon nanotubes as macromolecular coils. Melt viscosity
TVT, 56:5 (2018), 848–850
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How to define a nanocomposite by the example of polymer/organoclay nanostructured composites
Fizika Tverdogo Tela, 59:7 (2017), 1418–1421
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Structural model for the reinforcement of polymethyl methacrylate/carbon nanotube nanocomposites at an ultralow nanofiller content
Zhurnal Tekhnicheskoi Fiziki, 86:10 (2016), 99–103
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The nanofiller effective length and reinforcement degree of nanocomposites polymer/carbon nanotubes (nanofilaments)
CPM, 17:4 (2015), 609–613
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The deformability of blends polycarbonate/poly(ethylene terephthalate)
CPM, 17:2 (2015), 287–292
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Fire resistance structural model of polymer–organoclay composites
TVT, 53:4 (2015), 585–588
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Structure and properties of particulate-filled polymer nanocomposites
UFN, 185:1 (2015), 35–64
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A fractal model of melt viscosity of a polypropylene-carbon nanotube nanocomposite
TVT, 50:6 (2012), 785–788
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The interrelation of a fractal dimension and branching factor of macromolecular coils
News of the Kabardin-Balkar scientific center of RAS, 2009, no. 3, 130–134
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Polymers as natural nanocomposites: elasticity modulus and polymer chains tightnes
News of the Kabardin-Balkar scientific center of RAS, 2009, no. 1, 121–124
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The yielding process of particulate-filled
polymer nanocomposites
News of the Kabardin-Balkar scientific center of RAS, 2007, no. 1, 59–62
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Multifractal treatment of free volume and diffusion of gases in polyethylene
TVT, 45:6 (2007), 832–837
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The structure and thermal stability of polymer materials: A fractal model
TVT, 45:3 (2007), 355–358
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Influence of the sizes of gas molecules on their diffusion in cross-linked polyethylene
News of the Kabardin-Balkar scientific center of RAS, 2005, no. 2, 55–57
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Influence of stress concentration of particles of the filement on the structure and strength of the interfacial layer in polymer composites
News of the Kabardin-Balkar scientific center of RAS, 2004, no. 2, 45–48
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Formation of the polimeric films structure: Witten-Sander model
News of the Kabardin-Balkar scientific center of RAS, 2004, no. 2, 40–48
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Relationship between multifractal characteristics and structural parameters for dispersed-filled polymer composites
News of the Kabardin-Balkar scientific center of RAS, 2001, no. 2, 81–85
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A cluster model for the polymer amorphous state
UFN, 171:7 (2001), 717–764
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Crystallinity and fractal characteristics for amorphous-crystalline polyethylenes
News of the Kabardin-Balkar scientific center of RAS, 2000, no. 1, 108–113
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Fractal analysis of interfacial adhesion and interfacial layer in polyhydroxyether-graphite composites
News of the Kabardin-Balkar scientific center of RAS, 2000, no. 1, 104–107
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Structure and properties of polymers in terms of the fractal approach
Usp. Khim., 69:6 (2000), 572–599
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Fractal analysis of macromolecules
Usp. Khim., 69:4 (2000), 378–399
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Study by IR spectroscopy of the structure of non-crystalline regions of modified high-density polyethylene
News of the Kabardin-Balkar scientific center of RAS, 1999, no. 2, 65–68
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Regularities of
the frequency and temperature behavior of dynamical conductivity of the superionic conductors
Dokl. Akad. Nauk SSSR, 289:4 (1986), 846–850
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New results on the dynamics of Rochelle salt crystals (a system with a “double” critical point)
UFN, 149:2 (1986), 331–334
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Dielectric spectroscopy of soft modes in ferroelectrics
UFN, 135:3 (1981), 515–518
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Fluctuation free volume as a measure of the degree of disorder in amorphous glassy polymers
News of the Kabardin-Balkar scientific center of RAS, 2004, no. 1, 31–36
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Structure and properties of extruded polyarylate
News of the Kabardin-Balkar scientific center of RAS, 2001, no. 1, 70–78
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Aleksandr Mikhaĭlovich Prokhorov (on his seventy-fifth birthday)
Kvantovaya Elektronika, 18:7 (1991), 895–896
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Spin-flipping transitions and dynamic properties of rare-earth weak ferromagnetics
UFN, 161:9 (1991), 211–214
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