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Effect of Particle Size Distribution on Laser Powder Bed Fusion Manufacturability of Copper

M. Bonesso, Pietro Rebesan, Claudio Gennari, Simone Mancin, R. Dima, A. Pepato, Irene Calliari

2021BHM Berg- und Hüttenmännische Monatshefte47 citationsDOIOpen Access PDF

Abstract

Abstract One of the major benefits of the Laser Powder Bed Fusion (LPBF) technology is the possibility of fabrication of complex geometries and features in only one-step of production. In the case of heat exchangers in particular, this is very convenient for the fabrication of conformal cooling channels which can improve the performance of the heat transfer capability. Yet, obtaining dense copper parts printed via LPBF presents two major problems: the high reflectivity of 1 μm (the wavelength of commonly used laser sources) and the high thermal conductivity of copper that limits the maximum local temperature that can be attained. This leads to the formation of porous parts. In this contribution, the influence of the particle size distribution of the powder on the physical and mechanical properties of parts produced via LPBF is studied. Three copper powders lots with different particle size distributions are used in this study. The effect on densification from two laser scan parameters (scan speed and hatching distance) and the influence of contours scans on the lateral surface roughness is reported. Subsequently, samples manufactured with the optimal process parameters are tested for thermal and mechanical properties evaluation.

Topics & Concepts

Materials scienceFabricationCopperLaserThermal conductivityPorosityParticle (ecology)Particle sizeDesign for manufacturabilitySelective laser sinteringParticle-size distributionSurface roughnessWavelengthThermalRapid prototypingSurface finishFusionHeat transferComposite materialOpticsOptoelectronicsMetallurgySinteringMechanical engineeringChemical engineeringMechanicsThermodynamicsGeologyMedicinePhysicsPhilosophyOceanographyLinguisticsAlternative medicineEngineeringPathologyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesHigh Entropy Alloys Studies
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