Marcin Chmielewski scite author profile

This paper presents numerical studies of powder compaction in cold uniaxial pressing. The powder compaction in this work is considered as an initial stage of a hot pressing process so it is realized with relatively low pressure (up to 50 MPa). Hence the attention has been focused on the densification mechanisms at this range of pressure and models suitable for these conditions. The discrete element method employing spherical particles has been used in the numerical studies. Numerical simulations have been performed for two different contact models-the elastic Hertz-Mindlin-Deresiewicz model and the plastic Storåk-ers model. Numerical results have been compared with the results of laboratory tests of the die compaction of the NiAl powder. Comparisons have shown that the discrete element method is capable to represent properly the densification mechanisms by the particle rearrangement and particle deformation.

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Discrete element modeling and experimental investigation of hot pressing of intermetallic NiAl powder

Nosewicz

Rojek

Chmielewski

et al. 2017

Advanced Powder Technology

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Interlayer of Al2O3–Cr functionally graded material for reduction of thermal stresses in alumina–heat resisting steel joints

Pietrzak

Kaliński

Chmielewski

2007

Journal of the European Ceramic Society

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