The AlSi10Mg alloywas fabricated by LaserMetal Fusion (LMF) using different post processing conditions. Tensile and dilatometric specimenswere obtainedwith longitudinal axis parallel to the building direction. A first set of samples was directly aged in the as-built state (AB), while a second batch underwent solubilization annealing (SA) at 540°C for 60min just before artificial ageing (AA) at 160°C for 8h. Solubilization caused the precipitation of Si particles, suppressed by the rapid solidification during SLM. Moreover, it caused partial recrystallization leading to a coarser microstructure. The ageing response was very different in the two cases, involving a higher starting hardness for the as-built material, showing a markedly higher hardness during the whole process. In the as-built material, isochronal ageing experiments carried out by differential scanning calorimetry showed the precipitation ofMg2Si particles beneath Si, while the same transformations were much less intense in the solubilized sample, due to the lower Si supersaturation. The ageing process raised the yield strength of about 20% compared to the AB material, slightly reducing the fracture elongation. The same alloy after SA+AA showed a strength 25% lower than the AB+AA material, while ductility significantly increased.
Properties of Laser Metal Fused AlSi10Mg Alloy Processed Using Different Heat Treatments / Pellizzari, Massimo; Malfatti, Massimo; Lora, Carlo; Deirmina, Faraz. - In: BHM. BERG- UND HUTTENMANNISCHE MONATSHEFTE. - ISSN 0005-8912. - 165:3(2020), pp. 164-168. [10.1007/s00501-020-00956-5]
Properties of Laser Metal Fused AlSi10Mg Alloy Processed Using Different Heat Treatments
Pellizzari, Massimo;Deirmina, Faraz
2020-01-01
Abstract
The AlSi10Mg alloywas fabricated by LaserMetal Fusion (LMF) using different post processing conditions. Tensile and dilatometric specimenswere obtainedwith longitudinal axis parallel to the building direction. A first set of samples was directly aged in the as-built state (AB), while a second batch underwent solubilization annealing (SA) at 540°C for 60min just before artificial ageing (AA) at 160°C for 8h. Solubilization caused the precipitation of Si particles, suppressed by the rapid solidification during SLM. Moreover, it caused partial recrystallization leading to a coarser microstructure. The ageing response was very different in the two cases, involving a higher starting hardness for the as-built material, showing a markedly higher hardness during the whole process. In the as-built material, isochronal ageing experiments carried out by differential scanning calorimetry showed the precipitation ofMg2Si particles beneath Si, while the same transformations were much less intense in the solubilized sample, due to the lower Si supersaturation. The ageing process raised the yield strength of about 20% compared to the AB material, slightly reducing the fracture elongation. The same alloy after SA+AA showed a strength 25% lower than the AB+AA material, while ductility significantly increased.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione