Break the strength and ductility trade-off in novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy

[Display omitted] •A novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 HEA was designed.•The microstructure evolution and deformation mechanisms was systematically investigated.•The studied HEA contain chemical short-range order (SRO) domains.•This precipitation strengthen HEA possessed high strength...

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Veröffentlicht in:Materials & design Jg. 239; S. 112752
Hauptverfasser: Ali, Naqash, Li, Jiale, Zhang, Liqiang, Zhang, Chaojie, Zhou, Hongwei, Liu, Dongming, Sanaullah, Kiran, Nian, Yi, Cheng, Jinjun
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 01.03.2024
Elsevier
Schlagworte:
Carbides precipitation
High-entropy alloy
Mechanical properties
Microstructure
Mechanical properties
Carbides precipitation
Microstructure
High-entropy alloy
ISSN:0264-1275, 1873-4197
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Abstract [Display omitted] •A novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 HEA was designed.•The microstructure evolution and deformation mechanisms was systematically investigated.•The studied HEA contain chemical short-range order (SRO) domains.•This precipitation strengthen HEA possessed high strength and ductility. In this study, a novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy (HEA) was designed, which exhibits high strength and ductility at room temperature. This alloy was prepared through hot forging and annealing treatments, which exhibited the FCC microstructure with NbC and discrete nano-sized M23C6 carbides precipitation. The studied HEA retained a tensile strength of 863 MPa, and an outstanding ductility of 58 %. The microstructure evolution and deformation mechanisms were further investigated. The deformation mechanism was mainly governed by nano-scale defect heterogeneity of stacking faults (SFs), deformation twins and dislocations. The improved strength-ductility synergy is attributed to the formation of multiple SFs, deformation twining, dislocation cells, and nano-sized NbC precipitation. Moreover, the TEM observation elucidates the presence of chemical short-range order (SRO) domain in the studied HEA, which also has a major contribution in strength and ductility increment. The present findings shed light on developing the HEAs through proper compositional design and heat treatments, resulting in the combine effect of precipitation strengthening, SFs mediated plasticity, twinning induced plasticity (TWIP), and SRO effect.
AbstractList [Display omitted] •A novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 HEA was designed.•The microstructure evolution and deformation mechanisms was systematically investigated.•The studied HEA contain chemical short-range order (SRO) domains.•This precipitation strengthen HEA possessed high strength and ductility. In this study, a novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy (HEA) was designed, which exhibits high strength and ductility at room temperature. This alloy was prepared through hot forging and annealing treatments, which exhibited the FCC microstructure with NbC and discrete nano-sized M23C6 carbides precipitation. The studied HEA retained a tensile strength of 863 MPa, and an outstanding ductility of 58 %. The microstructure evolution and deformation mechanisms were further investigated. The deformation mechanism was mainly governed by nano-scale defect heterogeneity of stacking faults (SFs), deformation twins and dislocations. The improved strength-ductility synergy is attributed to the formation of multiple SFs, deformation twining, dislocation cells, and nano-sized NbC precipitation. Moreover, the TEM observation elucidates the presence of chemical short-range order (SRO) domain in the studied HEA, which also has a major contribution in strength and ductility increment. The present findings shed light on developing the HEAs through proper compositional design and heat treatments, resulting in the combine effect of precipitation strengthening, SFs mediated plasticity, twinning induced plasticity (TWIP), and SRO effect.
In this study, a novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy (HEA) was designed, which exhibits high strength and ductility at room temperature. This alloy was prepared through hot forging and annealing treatments, which exhibited the FCC microstructure with NbC and discrete nano-sized M23C6 carbides precipitation. The studied HEA retained a tensile strength of 863 MPa, and an outstanding ductility of 58 %. The microstructure evolution and deformation mechanisms were further investigated. The deformation mechanism was mainly governed by nano-scale defect heterogeneity of stacking faults (SFs), deformation twins and dislocations. The improved strength-ductility synergy is attributed to the formation of multiple SFs, deformation twining, dislocation cells, and nano-sized NbC precipitation. Moreover, the TEM observation elucidates the presence of chemical short-range order (SRO) domain in the studied HEA, which also has a major contribution in strength and ductility increment. The present findings shed light on developing the HEAs through proper compositional design and heat treatments, resulting in the combine effect of precipitation strengthening, SFs mediated plasticity, twinning induced plasticity (TWIP), and SRO effect.
ArticleNumber 112752
Author Zhang, Chaojie
Zhou, Hongwei
Ali, Naqash
Cheng, Jinjun
Li, Jiale
Zhang, Liqiang
Liu, Dongming
Sanaullah, Kiran
Nian, Yi
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  surname: Nian
  fullname: Nian, Yi
  organization: School of Metallurgical Engineering, Anhui University of Technology, Ma’anshan 243002, China
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  givenname: Jinjun
  surname: Cheng
  fullname: Cheng, Jinjun
  organization: School of Metallurgical Engineering, Anhui University of Technology, Ma’anshan 243002, China
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Keywords Mechanical properties
Carbides precipitation
Microstructure
High-entropy alloy
Language English
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Snippet [Display omitted] •A novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 HEA was designed.•The microstructure evolution and deformation mechanisms was...
In this study, a novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy (HEA) was designed, which exhibits high strength and ductility at room...
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StartPage 112752
SubjectTerms Carbides precipitation
High-entropy alloy
Mechanical properties
Microstructure
Title Break the strength and ductility trade-off in novel NbC reinforced Fe40.5(CoCr)25Mn17.5Ni10Si5 high entropy alloy
URI https://dx.doi.org/10.1016/j.matdes.2024.112752
https://doaj.org/article/c3ed3427f28340d58d77c3616e6cce8f
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