"Hampl, J." . "185552" . . "constriction phenomenon; polymer composites; carbon particles; COMSOL Multiphysic"@en . . "2011-08-29+02:00"^^ . "Development of Materials Science in Research and Education" . . . . "2"^^ . "Slovak Expert Group of Solid State Chemistry and Physics" . "Bratislava" . "[35FE14BD527E]" . "Analog and Numerical Modeling the Constriction Phenomenon on Composites with Conductive Carbon Particles" . . "Analog and Numerical Modeling the Constriction Phenomenon on Composites with Conductive Carbon Particles"@en . "Jirk\u016F, Slavom\u00EDr" . . "Analog and Numerical Modeling the Constriction Phenomenon on Composites with Conductive Carbon Particles" . . "RIV/68407700:21230/11:00183675" . "Z(MSM6840770021)" . "978-80-8134-002-4" . . . . . . "The constriction phenomenon in polymer composites filled with conductive carbon particles is handled in plane and space using two models. 1st Model: Contact of spherical particles 2nd Model: Connecting of two spherical particles by means of conductive bridge Analog solution - For realization of planar field analogous model, it is used direct current field in a layer of graphite paper of constant h thickness. One-sided graphite paper was used for building of analogous models for our analogous facility. Numerical solution - For solving the above mentioned models, we will use the equation defining the electric current field in a conductive environment. The COMSOL Multiphysics program environment was used to resolve the stated boundary conditions for various values of overlapping particles or bridge widths. The current density and current I conducted through electrodes will be evaluated from the obtained electric fields." . "The constriction phenomenon in polymer composites filled with conductive carbon particles is handled in plane and space using two models. 1st Model: Contact of spherical particles 2nd Model: Connecting of two spherical particles by means of conductive bridge Analog solution - For realization of planar field analogous model, it is used direct current field in a layer of graphite paper of constant h thickness. One-sided graphite paper was used for building of analogous models for our analogous facility. Numerical solution - For solving the above mentioned models, we will use the equation defining the electric current field in a conductive environment. The COMSOL Multiphysics program environment was used to resolve the stated boundary conditions for various values of overlapping particles or bridge widths. The current density and current I conducted through electrodes will be evaluated from the obtained electric fields."@en . "21230" . "3"^^ . . . "Pilar\u010D\u00EDkov\u00E1, Ivana" . . . "RIV/68407700:21230/11:00183675!RIV12-MSM-21230___" . "Analog and Numerical Modeling the Constriction Phenomenon on Composites with Conductive Carbon Particles"@en . "Ke\u017Emarsk\u00E9 \u017Dlaby" . . . "2"^^ .