Open AccessSimulation of activational grinding for rhombic sulfur particles in a disintegrator (pinned disc mill)
Author(s) -
Ф. Х. Уракаев,
И. А. Массалимов,
T. S. Yusupov,
Bolat Uralbekov,
Б. Б. Татыкаев,
Perizat Asylbekovna Galiyeva,
T. A. Ketegenov,
Mukhambetkali Burkitbayev
Publication year - 2016
Publication title -
habaršy - a̋l-farabi atyndag̣y k̦azak̦ memlekettik ụlttyk̦ universiteti. himiâ seriâsy/chemical bulletin of kazakh national university
Language(s) - English
Resource type - Journals
eISSN - 2312-7554
pISSN - 1563-0331
DOI - 10.15328/cb780
Subject(s) - sulfur , grinding , mill , rotation (mathematics) , kinematics , materials science , rotational speed , metallurgy , mechanical engineering , mechanics , composite material , mathematics , engineering , geometry , physics , classical mechanics
Based on the theoretical studies, complete picture of a mechanical processing of sulfur in the disintegrator is given. Kinematic and dynamic characteristics of elastic and inelastic collisions of particles of processed rhombic sulfur with rows of disintegrator fingers are calculated. Based on the analysis of the obtained dependency of the rotation frequency of the rotors offers, advices on selecting optimal conditions for activation milling of α-sulfur in the disintegrator are given. These results can be partially used in the processing of sulfur and in other types of shock grinding devices, in particular, jet mills.