2018
DOI: 10.1016/j.matchar.2018.01.028
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Changes in the microstructure and mechanical properties of additively manufactured AlSi10Mg alloy after exposure to elevated temperatures

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Cited by 219 publications
(109 citation statements)
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“…29 Small kinks observed on the DSC curves near 480°C during DSC measurements in both as-built and reference samples may be an indication of the latter event. However, the low temperature event (i.e., GPZ formation) was absent in AM fabricated AlSi10Mg parts in our study 14 and other studies 13,18,22,32 Additionally, the nanoscale precipitates observed in the primary a aluminum are not intermetallic compounds but pure Si. 18,32 The disparity can be attributed to the differences in microstructure and chemical distribution during the quenching/ solidification process.…”
Section: Disscussioncontrasting
confidence: 52%
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“…29 Small kinks observed on the DSC curves near 480°C during DSC measurements in both as-built and reference samples may be an indication of the latter event. However, the low temperature event (i.e., GPZ formation) was absent in AM fabricated AlSi10Mg parts in our study 14 and other studies 13,18,22,32 Additionally, the nanoscale precipitates observed in the primary a aluminum are not intermetallic compounds but pure Si. 18,32 The disparity can be attributed to the differences in microstructure and chemical distribution during the quenching/ solidification process.…”
Section: Disscussioncontrasting
confidence: 52%
“…However, the low temperature event (i.e., GPZ formation) was absent in AM fabricated AlSi10Mg parts in our study 14 and other studies 13,18,22,32 Additionally, the nanoscale precipitates observed in the primary a aluminum are not intermetallic compounds but pure Si. 18,32 The disparity can be attributed to the differences in microstructure and chemical distribution during the quenching/ solidification process. In a conventional solution treated alloy, in addition to a dendritic solidification structure, the primary a aluminum forms a homogenous solid solution with maximum levels of Mg and Si as predicted by solubility and alloy composition limits 3 while the rapid solidified AM part develops a unique cellular microstructure with inhomogeneous compositions and different phases due to chemical partitioning or microsegregation.…”
Section: Disscussioncontrasting
confidence: 52%
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