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Influence of wall thickness on microstructure and mechanical properties of thin-walled 316L stainless steel produced by laser powder bed fusion

Rafał Wróbel, Lorenzo Del Guidice, Pooriya Scheel, N. Abando, Xavier Maeder, Michalis F. Vassiliou, E. Hosseini, Ralph Spolenak, Christian Leinenbach

2024Materials & Design26 citationsDOIOpen Access PDF

Abstract

Laser powder bed fusion (L-PBF) allows for the fabrication of samples with complex geometries based on thin struts or walls. However, only few studies have focused on the effect of these geometries on the properties of the material fabricated using this technology. In this work, we studied the impact of wall thicknesses below 1 mm on microstructure formation and mechanical properties in 316L parts fabricated by L-PBF. The size and geometry of melt pools varied significantly between different wall thicknesses due to powder denudation and local preheating, resulting in non-symmetrical melt pools for thicker samples. Furthermore, in the sub-grain microstructure, the thinnest samples consisted of solidification cells oriented almost parallel to the building direction. In the thicker walls, side branching and slender columnar grains were observed in the center lines of the melt pools. On the grain size scale, the thinnest samples consisted of finer grains with a more pronounced texture 〈100〉, while large grains growing parallel to the build direction and texture 〈101〉 were found for the thicker samples. Mechanical tests showed that the strength and ductility were higher in thicker samples, which was attributed to finer solidification cells.

Topics & Concepts

Materials scienceMicrostructureTexture (cosmology)Composite materialDuctility (Earth science)FusionGrain sizeFabricationAlloyCreepMedicineComputer sciencePathologyLinguisticsPhilosophyImage (mathematics)Alternative medicineArtificial intelligenceAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesHigh Entropy Alloys Studies
Influence of wall thickness on microstructure and mechanical properties of thin-walled 316L stainless steel produced by laser powder bed fusion | Litcius