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Die filling optimization using three-dimensional discrete element modeling

: Bierwisch, C.; Kraft, T.; Riedel, H.; Moseler, M.

Preprint urn:nbn:de:0011-n-1113691 (20 MByte PDF)
MD5 Fingerprint: c9dfaddcfe803440894b311def900a18
Created on: 5.3.2011

Powder Technology 196 (2009), No.2, pp.169-179
ISSN: 0032-5910
Journal Article, Electronic Publication
Fraunhofer IWM ()
die filling; density distribution; density homogeneity index; discrete element method; coarse graining

Inhomogeneous density distributions after die filling are a ubiquitous problem in powder technological part production. In this paper, numerical simulations of the die filling process in realistic, three-dimensional (3D) cavities are presented using the discrete element method with both multi-sphere and single sphere grain models. Good agreement was found between calculated and experimentally measured density distributions. The formation of an inhomogeneous distribution is discussed by a time-resolved analysis of the filling process. Grain rearrangement and densification during subsequent feeding shoe passages are characterized. The shoe velocity was tested for its influence on the density homogeneity. Suggestions for density homogenization with the application of cavity oscillations or volumetric filling are given. A density homogeneity index is introduced. The application of a coarse graining scheme circumvents the intrinsic difficulty of non-manageable grain numbers in 3D filling simulations. The validity and limitations of this scheme are discussed.