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The thesis aims at determining suitable selective laser melting process parameters enabling high productivity and sufficient part quality, for two materials: the aluminium alloy AlSi10Mg and the stainless steel SS316L.
To do that, the concept of productivity is first defined. On that basis, a strategy to optimize it is determined. It consists of finding adequate exposure parameters (power, scanning speed, hatch spacing, contour powers and contour scanning speeds) leading to a high relative density and low surface roughness, when the layer thickness is set to 0.1 mm (AlSi10Mg) and 0.08 mm (SS316L).
Experiments consisting of printing small cubes with different sets of parameters are conducted. Selecting test series parameters is reasoned using an index, which provides an estimation of the lack of fusion porosity that should be expected given a combination of power, scanning speed, hatch spacing and layer thickness.
Relative density is measured through Archimede’s method and micrography. AlSi10Mg and SS316L samples associated to a high index show lack-of-fusion pores. Besides, AlSi10Mg samples manufactured with low scanning speeds are subjected to spherical porosity, due to hydrogen bubbles that had time to grow in the melt pool before being trapped by solidification, most likely. SS316L samples present keyhole pores at high-energy-density regimes and porosity due to Plateau-Rayleigh instability at high-power-and-scanning-speed regimes.
Regarding surface quality, AlSi10Mg samples show a lower roughness when linear energy density is increased using two pre-contours, whereas SS316L samples present a better surface quality with one post-contour. Best surface roughness obtained after sandblasting is 6 μm for AlSi10Mg and 7 μm for SS316L.
Based on the conclusions of the experiments, a model is built to delimit windows of parameters leading to a sufficiently high density. Optimal sets regarding productivity are selected inside the windows. Predicted build rates are 16.5 mm3/s and 9.6 mm3/s for AlSi10Mg and SS316L, respectively. They increase current volume build rates by 58% and 159%, respectively.

Selective laser melting --- AlSi10Mg --- 316L --- Highly productive --- Experiments --- Density --- Surface roughness --- Layer thickness --- Parameters --- Power --- Scanning speed --- Hatch spacing --- Ingénierie, informatique & technologie > Ingénierie mécanique --- Ingénierie, informatique & technologie > Science des matériaux & ingénierie