Bridging the gap between atomic scale and ...
Document type :
Article dans une revue scientifique: Article original
DOI :
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Title :
Bridging the gap between atomic scale and thermodynamics for structurally complex multiphase multi-element systems: metallic borides in Al-based metal-matrix composites as a case study
Author(s) :
Besson, Rémy [Auteur]
Unité Matériaux et Transformations - UMR 8207 [UMET]
Thuinet, Ludovic [Auteur]
Unité Matériaux et Transformations - UMR 8207 [UMET]
Unité Matériaux et Transformations - UMR 8207 [UMET]
Thuinet, Ludovic [Auteur]
Unité Matériaux et Transformations - UMR 8207 [UMET]
Journal title :
Calphad
Volume number :
87
Pages :
102730
Publisher :
Elsevier
Publication date :
2024-04-17
ISSN :
0364-5916
English keyword(s) :
point defects
ab initio calculations
thermodynamics
complex multiphase systems
metallic borides
aluminium alloys
ab initio calculations
thermodynamics
complex multiphase systems
metallic borides
aluminium alloys
HAL domain(s) :
Chimie/Matériaux
Physique [physics]/Matière Condensée [cond-mat]/Science des matériaux [cond-mat.mtrl-sci]
Physique [physics]/Matière Condensée [cond-mat]/Science des matériaux [cond-mat.mtrl-sci]
English abstract : [en]
Intense researches on new kinds of materials, especially those with marked multi-principal-element character, currently give rise to all-intricate multiphase environments, for which reliably predicting structure and stability ...
Show more >Intense researches on new kinds of materials, especially those with marked multi-principal-element character, currently give rise to all-intricate multiphase environments, for which reliably predicting structure and stability becomes extremely difficult to achieve with macroscopic phenomenological modellings.The purpose of this work is to demonstrate how this issue can be overcome by sticking down to the atomic scale, through ab initio-based thermodynamics within the Independent-Point-Defect Approximation (IPDA), which offers an efficient framework to investigate systems involving various chemistries and crystallographies.As a case study of significant intricacy, we consider ternary Al-B-Ti viewed as an approximant for Al-based alloys reinforced with TiB2 particles and including AlB2 and Al3Ti additional compounds.Firstly, our IPDA investigations reveal unexpected discrepancies among neighbouring metallic borides, and predict point defect structures at odds with earlier pictures commonly employed hitherto, which suggests that many complex compounds may suffer from inadequate phenomenological modellings.Furthermore, we show that far-reaching conclusions on phase stability can be drawn only if the scope of analysis is broadened up to encompass global multiphase IPDA-based thermodynamics, a task which constitutes the core and the methodological originality of this work.Our approach thus provides reliable arguments to interpret the occurrence of various kinds of poorly known compounds, as illustrated by the controversial behaviour of Al3Ti and AlB2 in TiB2-reinforced Al-based composites.Finally, our work allows to conclude that the robust and handsome IPDA approach can be extended to highly intricate multiphase situations, e.g. to investigate other classes of multiphase multi-principal-element materials, which due to the presence of complex crystal structures can hardly be explored by alternative methods.Show less >
Show more >Intense researches on new kinds of materials, especially those with marked multi-principal-element character, currently give rise to all-intricate multiphase environments, for which reliably predicting structure and stability becomes extremely difficult to achieve with macroscopic phenomenological modellings.The purpose of this work is to demonstrate how this issue can be overcome by sticking down to the atomic scale, through ab initio-based thermodynamics within the Independent-Point-Defect Approximation (IPDA), which offers an efficient framework to investigate systems involving various chemistries and crystallographies.As a case study of significant intricacy, we consider ternary Al-B-Ti viewed as an approximant for Al-based alloys reinforced with TiB2 particles and including AlB2 and Al3Ti additional compounds.Firstly, our IPDA investigations reveal unexpected discrepancies among neighbouring metallic borides, and predict point defect structures at odds with earlier pictures commonly employed hitherto, which suggests that many complex compounds may suffer from inadequate phenomenological modellings.Furthermore, we show that far-reaching conclusions on phase stability can be drawn only if the scope of analysis is broadened up to encompass global multiphase IPDA-based thermodynamics, a task which constitutes the core and the methodological originality of this work.Our approach thus provides reliable arguments to interpret the occurrence of various kinds of poorly known compounds, as illustrated by the controversial behaviour of Al3Ti and AlB2 in TiB2-reinforced Al-based composites.Finally, our work allows to conclude that the robust and handsome IPDA approach can be extended to highly intricate multiphase situations, e.g. to investigate other classes of multiphase multi-principal-element materials, which due to the presence of complex crystal structures can hardly be explored by alternative methods.Show less >
Language :
Anglais
Peer reviewed article :
Oui
Audience :
Internationale
Popular science :
Non
Administrative institution(s) :
Université de Lille
CNRS
INRAE
ENSCL
CNRS
INRAE
ENSCL
Collections :
Research team(s) :
Métallurgie Physique et Génie des Matériaux
Submission date :
2024-09-04T15:52:02Z
2024-09-05T10:53:00Z
2024-09-05T11:59:55Z
2024-09-05T10:53:00Z
2024-09-05T11:59:55Z
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