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The kinetics and shape factors of ultrafine dry grinding in a laboratory tumbling ball mill.

Authors
Austin-LG; Yekeler-M; Dumm-TF; Hogg-R
Source
Part Part Syst Charact 1990 Dec; 7(1-4):242-247
NIOSHTIC No.
10004655
Abstract
The kinetics of batch grinding quartz from a feed of 600 by 425 mm to a product of 80% less than 10 mm have been determined using screening and laser diffractometer sizing for size analysis. The specific rates of breakage decreased by a factor of about three when the material became less than about 100 mm in size, but the primary breakage distribution function also changed to give proportionately more fine material, so that the grinding efficiency expressed as the development of surface area (B.E.T.) per unit of energy input did not decrease. Analysis of the shape of the particles in the 25 38 mm size range showed that particles of this size produced by roll crushing or by 8 minutes of grinding of a 425 600 mm feed were not different but at long grinding times the particles were rounded. This suggests that the breakage mechanism changes to give more chipping and abrasion and less disintegrative fracture. As the material approached the ultrafine size range it adhered to the mill case and there was no further size reduction. However, a technique for striking the mill case to dislodge the particles was successful in allowing further grinding to 40% by weight less than 2 um.
Keywords
Kinetics; Grinding equipment; Grinding mills; Quartz; Quartz dust; Ultrafine particles; Ultrafine particulates
CODEN
PPCHEZ
Publication Date
19901201
Document Type
Journal Article
Fiscal Year
1991
NTIS Accession No.
NTIS Price
Identifying No.
MIR 14-93
Issue of Publication
1-4
ISSN
0934-0866
Source Name
Particle and Particle Systems Characterization
State
PA
Performing Organization
Pennsylvania State University
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