Forming mechanism of equilibrium and non-equilibrium metallurgical phases in dissimilar aluminum/steel (Al–Fe) joints
Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the press...
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| Published in | Scientific reports Vol. 11; no. 1; p. 24251 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
20.12.2021
Nature Publishing Group Nature Portfolio |
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| Abstract | Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al–Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al
6
Fe is a pressure (
P
) favored IMC observed in processes involving high pressures. The MoSi
2
-type Al
2
Fe is brittle and a strong
P
-favored IMC observed at high pressures. The stable, brittle η-Al
5
Fe
2
is the most observed IMC (followed by θ-Al
13
Fe
4
) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al
5
Fe
2
is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al–Fe IMCs. Notably, the ductile AlFe
3
, the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al
2
Fe and Al
5
Fe
2
were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not
P-
favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. |
|---|---|
| AbstractList | Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al-Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al6Fe is a pressure (P) favored IMC observed in processes involving high pressures. The MoSi2-type Al2Fe is brittle and a strong P-favored IMC observed at high pressures. The stable, brittle η-Al5Fe2 is the most observed IMC (followed by θ-Al13Fe4) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al5Fe2 is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al-Fe IMCs. Notably, the ductile AlFe3, the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al2Fe and Al5Fe2 were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not P-favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. Abstract Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al–Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al 6 Fe is a pressure ( P ) favored IMC observed in processes involving high pressures. The MoSi 2 -type Al 2 Fe is brittle and a strong P -favored IMC observed at high pressures. The stable, brittle η-Al 5 Fe 2 is the most observed IMC (followed by θ-Al 13 Fe 4 ) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al 5 Fe 2 is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al–Fe IMCs. Notably, the ductile AlFe 3 , the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al 2 Fe and Al 5 Fe 2 were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not P- favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al-Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al Fe is a pressure (P) favored IMC observed in processes involving high pressures. The MoSi -type Al Fe is brittle and a strong P-favored IMC observed at high pressures. The stable, brittle η-Al Fe is the most observed IMC (followed by θ-Al Fe ) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al Fe is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al-Fe IMCs. Notably, the ductile AlFe , the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al Fe and Al Fe were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not P-favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al–Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al 6 Fe is a pressure ( P ) favored IMC observed in processes involving high pressures. The MoSi 2 -type Al 2 Fe is brittle and a strong P -favored IMC observed at high pressures. The stable, brittle η-Al 5 Fe 2 is the most observed IMC (followed by θ-Al 13 Fe 4 ) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al 5 Fe 2 is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al–Fe IMCs. Notably, the ductile AlFe 3 , the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al 2 Fe and Al 5 Fe 2 were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not P- favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. Abstract Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of equilibrium and non-equilibrium intermetallic compounds (IMCs) in dissimilar aluminum/steel joints with respect to processing history (e.g., the pressure and temperature profiles) and chemical composition, where the knowledge of free energy and atomic diffusion in the Al–Fe system was taken from first-principles phonon calculations and data available in the literature. We found that the metastable and ductile (judged by the presently predicted elastic constants) Al6Fe is a pressure (P) favored IMC observed in processes involving high pressures. The MoSi2-type Al2Fe is brittle and a strong P-favored IMC observed at high pressures. The stable, brittle η-Al5Fe2 is the most observed IMC (followed by θ-Al13Fe4) in almost all processes, such as fusion/solid-state welding and additive manufacturing (AM), since η-Al5Fe2 is temperature-favored, possessing high thermodynamic driving force of formation and the fastest atomic diffusivity among all Al–Fe IMCs. Notably, the ductile AlFe3, the less ductile AlFe, and most of the other IMCs can be formed during AM, making AM a superior process to achieve desired IMCs in dissimilar materials. In addition, the unknown configurations of Al2Fe and Al5Fe2 were also examined by machine learning based datamining together with first-principles verifications and structure predictions. All the IMCs that are not P-favored can be identified using the conventional equilibrium phase diagram and the Scheil-Gulliver non-equilibrium simulations. |
| ArticleNumber | 24251 |
| Author | Wang, Yi Banu, Mihaela Pan, Bo Sun, Hui Krajewski, Adam M. Liu, Zi-Kui Shang, Shun-Li Li, Jingjing |
| Author_xml | – sequence: 1 givenname: Shun-Li surname: Shang fullname: Shang, Shun-Li email: sus26@psu.edu organization: Department of Materials Science and Engineering, Pennsylvania State University – sequence: 2 givenname: Hui surname: Sun fullname: Sun, Hui organization: Department of Materials Science and Engineering, Pennsylvania State University – sequence: 3 givenname: Bo surname: Pan fullname: Pan, Bo organization: Department of Industrial and Manufacturing Engineering, Pennsylvania State University – sequence: 4 givenname: Yi surname: Wang fullname: Wang, Yi organization: Department of Materials Science and Engineering, Pennsylvania State University – sequence: 5 givenname: Adam M. surname: Krajewski fullname: Krajewski, Adam M. organization: Department of Materials Science and Engineering, Pennsylvania State University – sequence: 6 givenname: Mihaela surname: Banu fullname: Banu, Mihaela organization: Department of Mechanical Engineering, University of Michigan – sequence: 7 givenname: Jingjing surname: Li fullname: Li, Jingjing organization: Department of Industrial and Manufacturing Engineering, Pennsylvania State University – sequence: 8 givenname: Zi-Kui surname: Liu fullname: Liu, Zi-Kui organization: Department of Materials Science and Engineering, Pennsylvania State University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34930945$$D View this record in MEDLINE/PubMed https://www.osti.gov/biblio/1836637$$D View this record in Osti.gov |
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| CitedBy_id | crossref_primary_10_1039_D4DD00039K crossref_primary_10_1016_j_jmapro_2023_10_051 crossref_primary_10_1016_j_surfcoat_2024_130488 crossref_primary_10_1016_j_cirpj_2024_04_007 crossref_primary_10_1016_j_mtla_2024_102153 crossref_primary_10_1016_j_matchar_2023_113227 crossref_primary_10_1016_j_molliq_2024_125379 crossref_primary_10_1002_appl_202200062 crossref_primary_10_1021_acsami_2c22886 crossref_primary_10_1016_j_msea_2023_145851 crossref_primary_10_4028_p_6Ykus2 crossref_primary_10_3390_coatings13071267 |
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| Snippet | Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of... Abstract Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of... Abstract Forming metallurgical phases has a critical impact on the performance of dissimilar materials joints. Here, we shed light on the forming mechanism of... |
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| StartPage | 24251 |
| SubjectTerms | 639/166/988 639/301/1023/1026 639/301/1034/1038 Aluminum Equilibrium Free energy Humanities and Social Sciences Intermetallic compounds Learning algorithms Machine learning multidisciplinary Science Science (multidisciplinary) |
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| Title | Forming mechanism of equilibrium and non-equilibrium metallurgical phases in dissimilar aluminum/steel (Al–Fe) joints |
| URI | https://link.springer.com/article/10.1038/s41598-021-03578-0 https://www.ncbi.nlm.nih.gov/pubmed/34930945 https://www.proquest.com/docview/2611821302 https://search.proquest.com/docview/2612388595 https://www.osti.gov/biblio/1836637 https://pubmed.ncbi.nlm.nih.gov/PMC8688452 https://doaj.org/article/b68a38ee573649ef94441fb0dd41cb05 |
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