Microstructure tailoring of Al-containing compositionally complex alloys by controlling the sequence of precipitation and ordering

•Refractory metal-based compositionally complex alloys exhibit a two-phase microstructure.•The room temperature crystal structure can be tailored by the phase transition sequence.•Differential scanning calorimetry reveals both, order reaction and phase separation.•The Al concentration has a signific...

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Published inActa materialia Vol. 218; p. 117217
Main Authors Laube, Stephan, Schellert, Steven, Srinivasan Tirunilai, Aditya, Schliephake, Daniel, Gorr, Bronislava, Christ, Hans-Jürgen, Kauffmann, Alexander, Heilmaier, Martin
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2021
Subjects
crystal structure
Differential scanning calorimetry (DSC)
Phase transition
Refractory compositionally complex alloys (RCCA)
Refractory high entropy alloy (RHEA)
Transmission electron microscopy (TEM)
crystal structure
Refractory compositionally complex alloys (RCCA)
Differential scanning calorimetry (DSC)
Refractory high entropy alloy (RHEA)
Transmission electron microscopy (TEM)
Phase transition
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Abstract •Refractory metal-based compositionally complex alloys exhibit a two-phase microstructure.•The room temperature crystal structure can be tailored by the phase transition sequence.•Differential scanning calorimetry reveals both, order reaction and phase separation.•The Al concentration has a significant influence on the order reaction. Refractory metal-based, Al-containing compositionally complex alloys (RCCA) are promising candidates for high-temperature structural applications. To shed light on the complex phase transitions, thermodynamic calculations were performed to select two representative alloys with different sequences in phase transitions. Samples of these compositions were synthesized by arc melting of pure elements followed by a homogenization treatment to experimentally verify the room temperature microstructure and assess the phase transitions. Differential scanning calorimetry (DSC), scanning (SEM) and transmission electron microscopy (TEM) studies after the homogenization and quenching revealed multiple distinct sequences of transitions: (i) 82(TaMoTi)-8Cr-10Al (in at.%) exhibits a solid-state phase separation concurrent with ordering of the precipitates. This results in a disordered matrix with ordered precipitates. Thermal analysis indicates that while cooling from the high-temperature A2 phase, the phase separation and ordering are spread out over a large temperature range (approx. 750 – 1250°C), with a peak at 1055°C. (ii) In the 77(TaMoTi)-8Cr-15Al alloy, a continuous phase transition at 1155°C leads to a single-phase B2 matrix with planar faults. At slightly lower temperatures (approx. 1096°C), phase separation occurs resulting in a B2 matrix with segregation at planar faults and A2 precipitates. In both investigated compositions, the A2 phase is enriched in Ta and Mo. Conversely, the B2 phase is enriched in Al and Ti, while Cr is uniformly distributed in the phases. [Display omitted]
AbstractList •Refractory metal-based compositionally complex alloys exhibit a two-phase microstructure.•The room temperature crystal structure can be tailored by the phase transition sequence.•Differential scanning calorimetry reveals both, order reaction and phase separation.•The Al concentration has a significant influence on the order reaction. Refractory metal-based, Al-containing compositionally complex alloys (RCCA) are promising candidates for high-temperature structural applications. To shed light on the complex phase transitions, thermodynamic calculations were performed to select two representative alloys with different sequences in phase transitions. Samples of these compositions were synthesized by arc melting of pure elements followed by a homogenization treatment to experimentally verify the room temperature microstructure and assess the phase transitions. Differential scanning calorimetry (DSC), scanning (SEM) and transmission electron microscopy (TEM) studies after the homogenization and quenching revealed multiple distinct sequences of transitions: (i) 82(TaMoTi)-8Cr-10Al (in at.%) exhibits a solid-state phase separation concurrent with ordering of the precipitates. This results in a disordered matrix with ordered precipitates. Thermal analysis indicates that while cooling from the high-temperature A2 phase, the phase separation and ordering are spread out over a large temperature range (approx. 750 – 1250°C), with a peak at 1055°C. (ii) In the 77(TaMoTi)-8Cr-15Al alloy, a continuous phase transition at 1155°C leads to a single-phase B2 matrix with planar faults. At slightly lower temperatures (approx. 1096°C), phase separation occurs resulting in a B2 matrix with segregation at planar faults and A2 precipitates. In both investigated compositions, the A2 phase is enriched in Ta and Mo. Conversely, the B2 phase is enriched in Al and Ti, while Cr is uniformly distributed in the phases. [Display omitted]
ArticleNumber 117217
Author Schellert, Steven
Laube, Stephan
Kauffmann, Alexander
Christ, Hans-Jürgen
Heilmaier, Martin
Gorr, Bronislava
Srinivasan Tirunilai, Aditya
Schliephake, Daniel
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  surname: Srinivasan Tirunilai
  fullname: Srinivasan Tirunilai, Aditya
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  surname: Gorr
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  givenname: Hans-Jürgen
  surname: Christ
  fullname: Christ, Hans-Jürgen
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  organization: Institute for Applied Materials (IAM-WK), Karlsruhe Institute of Technology (KIT), Engelbert-Arnold-Str. 4, 76131 Karlsruhe, Germany
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Keywords crystal structure
Refractory compositionally complex alloys (RCCA)
Differential scanning calorimetry (DSC)
Refractory high entropy alloy (RHEA)
Transmission electron microscopy (TEM)
Phase transition
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Snippet •Refractory metal-based compositionally complex alloys exhibit a two-phase microstructure.•The room temperature crystal structure can be tailored by the phase...
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SubjectTerms crystal structure
Differential scanning calorimetry (DSC)
Phase transition
Refractory compositionally complex alloys (RCCA)
Refractory high entropy alloy (RHEA)
Transmission electron microscopy (TEM)
Title Microstructure tailoring of Al-containing compositionally complex alloys by controlling the sequence of precipitation and ordering
URI https://dx.doi.org/10.1016/j.actamat.2021.117217
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