This article presents the main components of Monte Carlo methods. An alternative to the basic processes of computer simulation of spherical elements in a stochastic medium is described. A 3D computer simulation model for packaging spherical cylinders (spherical elements) has been developed. The motion pattern of spherical elements was modeled, particularly the position of the lobes before movement and the position of spherical elements after movement. The authors presented 3D modeling of round cylinders with a spherical base and described the process of modeling spherical cylinders in a specific direction and point. The results obtained allowed us to study the close relationship between spherical components and to find out how much the shape of non-spherical elements differs from spherical ones. Based on the developed 3D computer model for modeling spherical cylinders, materials’ physical and mechanical properties, particularly porosity, were studied. It was found that the experimental results of porosity increase with increasing diameter of spherical elements (i.e., particles). As a result, it made it possible to predict the porosity of the package. The paper’s authors have also investigated the influence of container parameters (width and height) on materials’ properties (porosity). In this study, the phenomenon of edge effects was observed, which were caused mainly within the bunker width of 600–800 mm.
Numerical Investigation of Materials Porosity Based on the 3D Computer Simulation Particle Packaging Model
Lect.Notes Mechanical Engineering
Design, Simulation, Manufacturing: The Innovation Exchange ; 2023 ; High Tatras, Slovakia June 06, 2023 - June 09, 2023
2023-05-23
10 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Polydisperse Simulation , Monte Carlo Methods , Spherical Elements , Packaging , Software , No Intersection Condition , Center Coordinates , Bunker Parameters , Particle Size , Particle Shape , Product Innovation Engineering , Engineering Design , Industrial Chemistry/Chemical Engineering , Materials Engineering
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