Abstract
Despite widespread experimental methods to characterize the mechanical properties of additively manufactured components, there is a need to utilize numerical analysis to explore the properties of parts more efficiently. Properties related to variations in grain texture, defects, and residual stresses can be achieved through numerical multiscale modeling. This chapter aims to explore the many characteristics of AlSi10Mg alloys with laser powder bed fusion (LPBF) in a range scale of micro to macro to assess the fatigue life, failure, and mechanical properties of parts. This modeling is essential to establish a computational process-structure-performance approach. Thus, the effects of manufacturing deficiencies can be quantified and designing new components can be accelerated.
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