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Mezoskopska simulacija viskoelastičnosti magnetoreoloških tekočin
ID Čoko, Urban (Author), ID Svenšek, Daniel (Mentor) More about this mentor... This link opens in a new window, ID Potisk, Tilen (Co-mentor)

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Abstract
V tem magistrskem delu se ukvarjam z raziskovanjem viskoelastičnih lastnosti magnetoreoloških tekočin (MRF) preko simulacijske metode, ki sklaplja tri uveljavljene metode: molekularno dinamiko za simulacijo MRF delcev, mrežno Boltzmannovo metodo za simulacijo nosilne tekočine in metodo potopljene meje za sklopitev MRF delcev z nosilno tekočino. V začetnem delu metodo opišem, jo umestim med ostale metode za simulacijo MRF in podrobneje predstavim simulacijski korak. Na koncu metodo uporabim za opis viskoelastičnosti MRF v strižnem načinu delovanja. Pri tem se osredotočim na krivuljo napetosti v odvisnosti od deformacije, proces polzenja in na dinamiko MRF pod strižnim tokom. Kjer je mogoče, rezultate primerjam z eksperimentalnimi rezultati.

Language:Slovenian
Keywords:magnetoreološke tekočine, viskoelastičnost, molekularna dinamika, mrežna Boltzmannova metoda, metoda potopljene meje, magnetizem, krivulja napetost-deformacija, polzenje
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FMF - Faculty of Mathematics and Physics
Year:2023
PID:20.500.12556/RUL-150451 This link opens in a new window
COBISS.SI-ID:165957635 This link opens in a new window
Publication date in RUL:17.09.2023
Views:353
Downloads:41
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Secondary language

Language:English
Title:Mesoscopic Simulation of Viscoelasticity of Magnetorheological Fluids
Abstract:
In this thesis, I investigate the viscoelastic properties of magnetorheological fluids (MRFs) through a simulation method that combines three established methods: molecular dynamics for the simulation of MRF particles, the Lattice-Boltzmann method for the simulation of the carrier fluid, and the Immersed Boundary method describing the coupling between the MRF particles and the carrier fluid. I first describe the method, rank it among the other methods for MRF simulation, and present the simulation step in detail. Finally, I use the method to describe the viscoelasticity of MRFs in shear mode of operation. I focus on the stress-strain curve, creep, and the dynamics of MRF under shear flow. Some of the numerical results are also compared with experimental results from the literature.

Keywords:magnetorheological fluids, viscoelasticity, molecular dynamics, lattice Boltzmann method, immersed boundary method, magnetism, stress-strain curve, creep

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