We present co-designed experimental, theoretical, and numerical investigations aiming at estimating the value of the Young’s modulus for cold compacted powder materials. The concept of image-based mod- eling is used to reconstruct the morphology of the powder structure with high fidelity. Analyses on alu- minum powder pellets provide significant understanding of the microstructural mechanisms that preside the increase of the elastic properties with compaction. The role of the stress percolation path and its evolution during material densification is highlighted.
Numerical and experimental analysis of the Young's modulus of cold compacted powder materials
Salvadori, A.
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2017-01-01
Abstract
We present co-designed experimental, theoretical, and numerical investigations aiming at estimating the value of the Young’s modulus for cold compacted powder materials. The concept of image-based mod- eling is used to reconstruct the morphology of the powder structure with high fidelity. Analyses on alu- minum powder pellets provide significant understanding of the microstructural mechanisms that preside the increase of the elastic properties with compaction. The role of the stress percolation path and its evolution during material densification is highlighted.File in questo prodotto:
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