Interpenetrating microstructure in laser powder-bed fusion parts using selective rescanning
Bharath Bhushan Ravichander, Shweta Hanmant Jagdale, Golden Kumar
Abstract
In-situ microstructural control is desirable in additively manufactured metal parts due to limited post-processing options for net-shaped components. Here, we introduce a novel selective rescanning approach to control the local solidification conditions and the microstructure in metal parts produced by laser powder-bed fusion (LPBF). We show that the melt pool dimensions, grain size, and sub-grain cell structure can be selectively varied in three dimensions to engineer the mechanical response of LPBF parts. The lattice-based rescan strategy enables the formation of an interpenetrating microstructure comprised of fine and coarse grains. The localized heating and cooling-induced thermal stresses increase the hardness and tensile strength of rescanned specimens. The study shows the potential of selective remelting strategy as a promising avenue for achieving precise control of microstructure and properties in as-printed LPBF parts without subsequent processing.