D. V. Vol’nova scite author profile

D. V. Vol’nova

4Publications

12Citation Statements Received

32Citation Statements Given

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Saint-Petersburg State University of Technology and Design

Publications

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Development of a Method for Determining the Main Parameters of the Percolation Process in Antistatic Composite Polymer Materials

Vol’nova

Tsobkallo

Meshcheryakova

et al. 2021

KEM

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Polymer composite materials based on thermoplastic polymer and carbon nanoparticles with different axial ratio were obtained by melt technology. The values of the electrical resistance of polymer composites have been determined. Development of a methodology for assessing the parameters of the percolation process: the percolation threshold and the required resistance values of the polymer, to obtain a material with antistatic properties.

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Relationship of Mathematical and Structural Modeling of the Electrical Conducting Properties of Composite Film Fibers with Isotropic and Anisotropic Carbon Nanofillers

2020

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Modeling of the Electrotransport Process in PP-Based and PLA-Based Composite Fibers Filled with Carbon Nanofibers

2022

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Polypropylene and polylactide-based composite fibers have been produced by a melt technology. Long vapor-grown carbon fibers (CNFs) have been used as electrical conductivity fillers. It is clearly shown by experimental methods that the CNFs are evenly distributed in the polymer matrix, orienting themselves along the direction of fiber extrusion and retaining their initial dimensions. It is shown that for composites fibers based on crystallizing (polypropylene) and amorphous (polylactide acid) polymer matrix, the dependence of electrical resistance on the filler concentration is percolation character and can be described as a double Boltzmann function. Four sections are identified on the dependences of the electrical resistance on the filler concentration for composite fibers, and the reasons for this character of this dependence on the formation of electrically conductive circuits are analyzed. Investigated in this work are the PP-based and PLA-based composites filled with carbon nanofibers that can be used as antistatic, shielding materials, or as sensors.

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Statistical Approach to Description of Percolation Processes in Composite Filaments Filled with Anisotropic Nonagglomerating Carbon Nanofiller

2021

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D. V. Vol’nova

Development of a Method for Determining the Main Parameters of the Percolation Process in Antistatic Composite Polymer Materials

Relationship of Mathematical and Structural Modeling of the Electrical Conducting Properties of Composite Film Fibers with Isotropic and Anisotropic Carbon Nanofillers

Modeling of the Electrotransport Process in PP-Based and PLA-Based Composite Fibers Filled with Carbon Nanofibers

Statistical Approach to Description of Percolation Processes in Composite Filaments Filled with Anisotropic Nonagglomerating Carbon Nanofiller

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