Litcius/Paper detail

Investigation on the effect of the gas-to-metal ratio on powder properties and PBF-LB/M processability

Stefania Cacace, M. Boccadoro, Quirico Semeraro

2023Progress in Additive Manufacturing17 citationsDOIOpen Access PDF

Abstract

Abstract Metal powders for the laser powder bed fusion process are usually produced via gas atomization. However, due to the tight particle size distribution required for this application, the yield of the atomization process is low, resulting in a high-powder cost. In this work, atomization process parameters were varied to increase the gas-to-metal ratio to reduce the particle size distribution produced, and therefore increase the yield of the process. As a result, eight powders were produced starting from scrap AISI 136L material at different gas-to-metal ratio values, and the atomization process yield was successfully increased by 50%. First, the eight powders were characterized in terms of powder size, shape distributions, and flowability. Later, all powders were used to produce tensile specimens. The powders produced at higher yield exhibited a larger number of fine particles but slightly lower circularity, particularly in the coarse fraction. Furthermore, powders produced at a high gas-to-metal ratio demonstrated enhanced flowing properties and higher packing density. Consequently, these powders exhibited superior tensile performance, with ultimate tensile strength (UTS) ranging from 651 to 673 MPa and elongation values between 63 and 66%.

Topics & Concepts

Materials scienceUltimate tensile strengthElongationYield (engineering)Metal powderParticle sizeMetalMetallurgyParticle-size distributionScrapParticle (ecology)Composite materialFraction (chemistry)Chemical engineeringChemistryChromatographyGeologyEngineeringOceanographyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesInjection Molding Process and Properties