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Consider a random walk in a regular m-polygon inscribed in the unit circle. The movement of the point to a randomly selected vertex determines the new position of the point.
The point passes a prescribed distance and stops. For such a process, there is a limit distribution of the probabilities of the position of the point. This algorithm was used for modelling different processes. Now we apply it for high-energy ball milling. The impact frequency spatial distribution calculated with the stochastic model simulation has coincided with the distribution
predicted by the distinct element method. The real granulometric analysis also can be explained by the model.
Translated title of the contributionМоделирование хаотического режима помола в планетарной мельнице
Original languageEnglish
Article number012089
Number of pages5
JournalIOP Conference Series: Materials Science and Engineering
Volume1155
StatePublished - 17 Jun 2021
Event3rd International Conference on Advanced Technologies in Materials Science, Mechanical and Automation Engineering, MIP: Engineering-III 2021: Модернизация, Инновации, Прогресс: Передовые технологии в материаловедении, машиностроении и автоматизации - Красноярский ДНИТ, Krasnoyarsk, Russian Federation
Duration: 29 Apr 202130 Apr 2021
Conference number: 3
https://conf.domnit.ru/ru/conferences/mip-engineering-3-2021/
https://conf.domnit.ru/en/materials/mip-engineering-2021/

ID: 77899549