The effect of particle size distribution in powder compaction has been studied using the discrete element method. Both isostatic compaction and closed die compaction are studied together during the entire loading process. Particle rotation and frictional effects are accounted for in the analysis. The particles are, constitutively described by rigid plasticity, assumed to be spherical with the size of the radii that follows a truncated normal distribution. The results show that size distribution effects are small on global compaction properties like compaction pressure if the size distribution is small. Furthermore, the size distribution had no influence at all on the macroscopic behavior at unloading. To verify the model, comparisons were made on two different sets of experiment found in the literature where the particles were of varying sizes. Good agreement was found both on fundamental properties like the average number of contacts per particle and on more important properties from a practical point of view, like the compaction pressure.
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e-mail: erolsson@kth.se
e-mail: pelle@hallf.kth.se
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September 2012
Research Papers
On the Effect of Particle Size Distribution in Cold Powder Compaction
Erik Olsson,
Erik Olsson
Department of Solid Mechanics,
e-mail: erolsson@kth.se
Royal Institute of Technology, Stockholm
, SE-10044, Sweden
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Per-Lennart Larsson
Per-Lennart Larsson
Department of Solid Mechanics,
e-mail: pelle@hallf.kth.se
Royal Institute of Technology, Stockholm
, SE-10044, Sweden
Search for other works by this author on:
Erik Olsson
Department of Solid Mechanics,
Royal Institute of Technology, Stockholm
, SE-10044, Sweden
e-mail: erolsson@kth.se
Per-Lennart Larsson
Department of Solid Mechanics,
Royal Institute of Technology, Stockholm
, SE-10044, Sweden
e-mail: pelle@hallf.kth.se
J. Appl. Mech. Sep 2012, 79(5): 051017 (8 pages)
Published Online: July 16, 2012
Article history
Received:
June 17, 2011
Revised:
January 16, 2012
Posted:
March 15, 2012
Published:
June 28, 2012
Online:
July 16, 2012
Citation
Olsson, E., and Larsson, P. (July 16, 2012). "On the Effect of Particle Size Distribution in Cold Powder Compaction." ASME. J. Appl. Mech. September 2012; 79(5): 051017. https://doi.org/10.1115/1.4006382
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