Angelidakis V, Blank M, Ribeiro Parteli EJ, Roy S, Schiochet Nasato D, Xiao H, Pöschel T (2025)
Publication Type: Book chapter / Article in edited volumes
Publication year: 2025
Publisher: Springer Nature
Edited Volumes: Progress in Powder Based Additive Manufacturing
Series: Springer Tracts in Additive Manufacturing
Book Volume: Part F386
Pages Range: 263-283
DOI: 10.1007/978-3-031-78350-0_13
The packing behavior of powders is significantly influenced by various types of inter-particle attractive forces, including adhesion and non-bonded van der Waals forces [4, 7, 8, 19, 41, 43]. Alongside particle size and shape distributions, the inter-particle interactions, particularly frictional and adhesive forces, play a crucial role in determining the flow behavior and consequently the packing density of the powder layer. The impact of various types of attractive forces on the packing density of powders with different materials and particle size distributions remains largely unexplored and requires further investigation. Accurately comprehending these effects through experiments while considering specific particle size distributions and material properties poses significant challenges.
APA:
Angelidakis, V., Blank, M., Ribeiro Parteli, E.J., Roy, S., Schiochet Nasato, D., Xiao, H., & Pöschel, T. (2025). DEM Simulation of the Powder Application in Powder Bed Fusion. In Dietmar Drummer, Michael Schmidt (Eds.), Progress in Powder Based Additive Manufacturing. (pp. 263-283). Springer Nature.
MLA:
Angelidakis, Vasileios, et al. "DEM Simulation of the Powder Application in Powder Bed Fusion." Progress in Powder Based Additive Manufacturing. Ed. Dietmar Drummer, Michael Schmidt, Springer Nature, 2025. 263-283.
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