Development of additive manufacturing (AM) processes such as Laser Powder Bed Fusion (L-PBF) has provided the opportunity to develop tailored cellular materials for various loading conditions, including static and fatigue. However, the fatigue resistance of these structures is highly dependent on their geometry, morphology, and process parameters.
Statistical Evaluation of Fatigue Properties of L-PBF Manufactured Cellular Lattice Material Using a Strain Energy Density Approach
Filippo Zanini;Simone Carmignato;
2022
Abstract
Development of additive manufacturing (AM) processes such as Laser Powder Bed Fusion (L-PBF) has provided the opportunity to develop tailored cellular materials for various loading conditions, including static and fatigue. However, the fatigue resistance of these structures is highly dependent on their geometry, morphology, and process parameters.File in questo prodotto:
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