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Effect of interlayer temperature on melt-pool morphology in laser powder bed fusion

Qian Wang, Panagiotis Michaleris, Yong Ren, Corey J. Dickman, Edward W. Reutzel

2023Additive Manufacturing Letters11 citationsDOIOpen Access PDF

Abstract

Considering the high correlation of melt-pool size and build quality of a part fabricated by a laser power bed fusion (L-PBF) process, it is important to understand what are the major thermal factors that affect melt-pool size during the build process. This paper conducts an experimental investigation on how interlayer temperature affects the melt-pool morphology through a case study of a square-canonical part of Inconel 718 built with the EOS M280 system. Interlayer temperature is the layer temperature after powder spreading but before scanning a new layer. This paper examines variations in melt-pool morphology across representative layers with a large difference in interlayer temperature. It also investigates how the melt-pool size variation is affected by local temperature change caused by switching the laser scanning direction from hatch-to-hatch within a single layer. It is observed that the melt-pool half-width has increased by 40% - 100% when the interlayer temperature has increased from 100 Co to 300 Co. On the other hand, the variation of melt-pool dimensions due to local temperature change is less significant under a low interlayer temperature at 100 Co. The difference in melt-pool dimensions due to laser turnaround gets amplified when the interlayer temperature reaches high at 300 Co. Moreover, a trend of melt-pool morphology transitioning from a conduction to a convective heat transfer mode is observed at the interlayer temperature of 300 Co. Results of this paper demonstrate that interlayer temperature plays a critical role in thermal effects on melt-pool morphology, indicating a need of controlling interlayer temperature to improve build quality.

Topics & Concepts

Materials scienceLaser power scalingFusionMorphology (biology)Composite materialThermalLaserSelective laser meltingThermal conductionThermal conductivityTemperature gradientMicrostructureOpticsThermodynamicsGeologyPhilosophyLinguisticsPhysicsQuantum mechanicsPaleontologyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesManufacturing Process and Optimization
Effect of interlayer temperature on melt-pool morphology in laser powder bed fusion | Litcius