2022
DOI: 10.1016/j.jallcom.2022.164251
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Influence of hydrogen vacancy interactions on natural and artificial ageing of an AlMgSi alloy

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Cited by 3 publications
(3 citation statements)
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“…Complementary information is detailed in Appendix A where DSC measurements have been performed on this alloy differently aged. Hydrogen strongly interacts with excess vacancies [33,[38][39][40], and thus seems to delay the formation of GP zones probably by reducing the diffusion of copper or/and by increasing the energy barrier of GP zones nucleation. Ab initio calculations are then carried out to get a deeper understanding of fundamental mechanisms leading to the delayed formation of GP zones when hydrogen is introduced on the alloy.…”
Section: Hardness Kinetic Variations Of the Naturally Agedmentioning
confidence: 99%
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“…Complementary information is detailed in Appendix A where DSC measurements have been performed on this alloy differently aged. Hydrogen strongly interacts with excess vacancies [33,[38][39][40], and thus seems to delay the formation of GP zones probably by reducing the diffusion of copper or/and by increasing the energy barrier of GP zones nucleation. Ab initio calculations are then carried out to get a deeper understanding of fundamental mechanisms leading to the delayed formation of GP zones when hydrogen is introduced on the alloy.…”
Section: Hardness Kinetic Variations Of the Naturally Agedmentioning
confidence: 99%
“…This difference can be due to hydrogen reducing the diffusion of copper or/and an increase of the energy barrier to form GP zones, locking copper agglomerates as clusters. Since hydrogen strongly interacts with the excess vacancies [33,[38][39][40], our numerical study focused on the effect of hydrogen on the diffusion of the copper in aluminium through ab initio calculations. .…”
Section: Comparison Between Experiments and Calculationsmentioning
confidence: 99%
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