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Revealing the Epitaxial Interface between Al 13 Fe 4 and Al 5 Fe 2 Enabling Atomic Al Interdiffusion.
- Source :
-
ACS applied materials & interfaces [ACS Appl Mater Interfaces] 2023 Apr 19; Vol. 15 (15), pp. 19593-19603. Date of Electronic Publication: 2023 Apr 05. - Publication Year :
- 2023
-
Abstract
- Steel is the most commonly manufactured material in the world. Its performances can be improved by hot-dip coating with the low weight aluminum metal. The structure of the Al∥Fe interface, which is known to contain a buffer layer made of complex intermetallic compounds such as Al <subscript>5</subscript> Fe <subscript>2</subscript> and Al <subscript>13</subscript> Fe <subscript>4</subscript> , is crucial for the properties. On the basis of surface X-ray diffraction, combined with theoretical calculations, we derive in this work a consistent model at the atomic scale for the complex Al <subscript>13</subscript> Fe <subscript>4</subscript> (010)∥Al <subscript>5</subscript> Fe <subscript>2</subscript> (001) interface. The epitaxial relationships are found to be [130] <subscript>Al <subscript>5</subscript> Fe <subscript>2</subscript> </subscript> ∥[010] <subscript>Al <subscript>13</subscript> Fe <subscript>4</subscript> </subscript> and [1 1̅0] <subscript>Al <subscript>5</subscript> Fe <subscript>2</subscript> </subscript> ∥[100] <subscript>Al <subscript>13</subscript> Fe <subscript>4</subscript> </subscript> . Interfacial and constrained energies, as well as works of adhesion, calculated for several structural models based on density functional theory, identify the lattice mismatch and the interfacial chemical composition as main factors for the stability of the interface. Molecular dynamics simulations suggest a mechanism of Al diffusion to explain the formation of the complex Al <subscript>13</subscript> Fe <subscript>4</subscript> and Al <subscript>5</subscript> Fe <subscript>2</subscript> phases at the Al∥Fe interface.
Details
- Language :
- English
- ISSN :
- 1944-8252
- Volume :
- 15
- Issue :
- 15
- Database :
- MEDLINE
- Journal :
- ACS applied materials & interfaces
- Publication Type :
- Academic Journal
- Accession number :
- 37018536
- Full Text :
- https://doi.org/10.1021/acsami.2c22886