Microstructure characterization by X-ray tomography and EBSD of porous FeCr produced by liquid metal dealloying

Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a (FeCr)x-Ni1−x precursor, it is possible to get porous FeCr with this technique. While immersing precursors in a molten Mg bath, Ni atoms selectively mig...

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Vydané v:Materials characterization Ročník 144; s. 166 - 172
Hlavní autori: Mokhtari, Morgane, Le Bourlot, Christophe, Adrien, Jérome, Bonnin, Anne, Wada, Takeshi, Duchet-Rumeau, Jannick, Kato, Hidemi, Maire, Eric
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: United States Elsevier Inc 01.10.2018
Elsevier
Predmet:
BACKSCATTERING
BCC LATTICES
CHROMIUM COMPOUNDS
Condensed Matter
Dealloying
EBSD
ELECTRON DIFFRACTION
FCC LATTICES
Instrumentation and Detectors
IRON COMPOUNDS
LIQUID METALS
Materials and structures in mechanics
MATERIALS SCIENCE
Mechanical engineering
Mechanics
Mechanics of materials
PHASE STUDIES
Physics
Porous
POROUS MATERIALS
SOLID SOLUTIONS
SOLIDS
SURFACES
TOMOGRAPHY
X-ray tomography
X-ray tomography
Dealloying
EBSD
Porous
Fe
ISSN:1044-5803, 1873-4189
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Abstract Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a (FeCr)x-Ni1−x precursor, it is possible to get porous FeCr with this technique. While immersing precursors in a molten Mg bath, Ni atoms selectively migrate into the Mg bath. After cooling down to room temperature, the resulting microstructure is a bi-continuous structure of FeCr and Mg (with Ni in solid solution). A final etching step removes the Mg solid-state solution phase. Precursors with different compositions were dealloyed and imaged in 3D. From X-ray tomography images, porous FeCr characteristics as solid fraction, phase size, specific surface were extracted. EBSD maps were acquired on samples before and after dealloying. We will show that precursor composition is a key parameter to control pores and grains size while dealloying parameters (time and temperature) are key parameters to control ligaments size and in fine specific surface. By controlling precursor composition and dealloying parameters it is now possible to get dealloyed nanoporous metals with desired grain and porous microstructure by liquid metal dealloying. •FeCr-Ni precursors were dealloyed in a Mg bath to give FeCr-Mg bicontinuous structure.•FeCr-Mg bicontinuous structure was immersed in HNO3 solution to get porous FeCr.•(FeCr)x-Ni1−x precursors are fully FCC phase while porous FeCr are fully BCC phase.•Composition & dealloying parameters are key parameters for controlling microstructure
AbstractList Highlights: • FeCr-Ni precursors were dealloyed in a Mg bath to give FeCr-Mg bicontinuous structure. • FeCr-Mg bicontinuous structure was immersed in HNO{sub 3} solution to get porous FeCr. • (FeCr){sub x}-Ni{sub 1−x} precursors are fully FCC phase while porous FeCr are fully BCC phase. • Composition & dealloying parameters are key parameters for controlling microstructure - Abstract: Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a (FeCr){sub x}-Ni{sub 1−x} precursor, it is possible to get porous FeCr with this technique. While immersing precursors in a molten Mg bath, Ni atoms selectively migrate into the Mg bath. After cooling down to room temperature, the resulting microstructure is a bi-continuous structure of FeCr and Mg (with Ni in solid solution). A final etching step removes the Mg solid-state solution phase. Precursors with different compositions were dealloyed and imaged in 3D. From X-ray tomography images, porous FeCr characteristics as solid fraction, phase size, specific surface were extracted. EBSD maps were acquired on samples before and after dealloying. We will show that precursor composition is a key parameter to control pores and grains size while dealloying parameters (time and temperature) are key parameters to control ligaments size and in fine specific surface. By controlling precursor composition and dealloying parameters it is now possible to get dealloyed nanoporous metals with desired grain and porous microstructure by liquid metal dealloying.
Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a (FeCr)x-Ni1−x precursor, it is possible to get porous FeCr with this technique.While immersing precursors in a molten Mg bath, Ni atoms selectively migrate into the Mg bath. After cooling down to room temperature, the resulting microstructure is a bi-continuous structure of FeCr and Mg (with Ni in solid solution). A final etching step removes the Mg solid-state solution phase. Precursors with different compositions were dealloyed and imaged in 3D. From X-ray tomography images, porous FeCr characteristics as solid fraction, phase size, specific surface were extracted. EBSD maps were acquired on samples before and after dealloying.We will show that precursor composition is a key parameter to control pores and grains size while dealloying parameters (time and temperature) are key parameters to control ligaments size and in fine specific surface. By controlling precursor composition and dealloying parameters it is now possible to get dealloyed nanoporous metals with desired grain and porous microstructure by liquid metal dealloying.
Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a (FeCr)x-Ni1−x precursor, it is possible to get porous FeCr with this technique. While immersing precursors in a molten Mg bath, Ni atoms selectively migrate into the Mg bath. After cooling down to room temperature, the resulting microstructure is a bi-continuous structure of FeCr and Mg (with Ni in solid solution). A final etching step removes the Mg solid-state solution phase. Precursors with different compositions were dealloyed and imaged in 3D. From X-ray tomography images, porous FeCr characteristics as solid fraction, phase size, specific surface were extracted. EBSD maps were acquired on samples before and after dealloying. We will show that precursor composition is a key parameter to control pores and grains size while dealloying parameters (time and temperature) are key parameters to control ligaments size and in fine specific surface. By controlling precursor composition and dealloying parameters it is now possible to get dealloyed nanoporous metals with desired grain and porous microstructure by liquid metal dealloying. •FeCr-Ni precursors were dealloyed in a Mg bath to give FeCr-Mg bicontinuous structure.•FeCr-Mg bicontinuous structure was immersed in HNO3 solution to get porous FeCr.•(FeCr)x-Ni1−x precursors are fully FCC phase while porous FeCr are fully BCC phase.•Composition & dealloying parameters are key parameters for controlling microstructure
Author Maire, Eric
Bonnin, Anne
Kato, Hidemi
Adrien, Jérome
Le Bourlot, Christophe
Wada, Takeshi
Duchet-Rumeau, Jannick
Mokhtari, Morgane
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  surname: Le Bourlot
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  organization: Univ Lyon, INSA Lyon, MATEIS, CNRS UMR5510, F-69621 Villeurbanne, France
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  organization: Univ Lyon, INSA Lyon, MATEIS, CNRS UMR5510, F-69621 Villeurbanne, France
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  organization: Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba Ward, Sendai 980-8577, Japan
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  givenname: Jannick
  surname: Duchet-Rumeau
  fullname: Duchet-Rumeau, Jannick
  organization: Univ Lyon, INSA Lyon, IMP, CNRS UMR5223, F-69621 Villeurbanne, France
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  givenname: Hidemi
  surname: Kato
  fullname: Kato, Hidemi
  organization: Institute for Materials Research, Tohoku University, 2-1-1 Katahira, Aoba Ward, Sendai 980-8577, Japan
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  givenname: Eric
  surname: Maire
  fullname: Maire, Eric
  organization: Univ Lyon, INSA Lyon, MATEIS, CNRS UMR5510, F-69621 Villeurbanne, France
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Keywords X-ray tomography
Dealloying
EBSD
Porous
Fe
Language English
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Snippet Liquid metal dealloying is a promising technique to get nanoporous materials which are attractive for their excellent functional properties. From a...
Highlights: • FeCr-Ni precursors were dealloyed in a Mg bath to give FeCr-Mg bicontinuous structure. • FeCr-Mg bicontinuous structure was immersed in HNO{sub...
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SubjectTerms BACKSCATTERING
BCC LATTICES
CHROMIUM COMPOUNDS
Condensed Matter
Dealloying
EBSD
ELECTRON DIFFRACTION
FCC LATTICES
Instrumentation and Detectors
IRON COMPOUNDS
LIQUID METALS
Materials and structures in mechanics
MATERIALS SCIENCE
Mechanical engineering
Mechanics
Mechanics of materials
PHASE STUDIES
Physics
Porous
POROUS MATERIALS
SOLID SOLUTIONS
SOLIDS
SURFACES
TOMOGRAPHY
X-ray tomography
Title Microstructure characterization by X-ray tomography and EBSD of porous FeCr produced by liquid metal dealloying
URI https://dx.doi.org/10.1016/j.matchar.2018.06.032
https://hal.science/hal-01835520
https://www.osti.gov/biblio/22805775
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