First demonstration of promising selective electron beam melting method for utilizing high-entropy alloys as engineering materials

High-entropy alloys (HEAs) are equiatomic, multi-element systems that contain five or more principal elements and have unique and excellent properties. However, it is difficult to overcome the inherent complexity and high levels of control required to produce homogeneous alloys industrially using a...

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Published inMaterials letters Vol. 159; pp. 12 - 15
Main Authors Fujieda, Tadashi, Shiratori, Hiroshi, Kuwabara, Kosuke, Kato, Takahiko, Yamanaka, Kenta, Koizumi, Yuichiro, Chiba, Akihiko
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2015
Subjects
Alloys
Austenitic stainless steels
Electron beam melting
Fracture strength
High-entropy alloy
Level (quantity)
Materials selection
Mechanical properties
Molds
Selective electron beam melting (SEBM)
Selective electron beam melting (SEBM)
Mechanical properties
High-entropy alloy
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Abstract High-entropy alloys (HEAs) are equiatomic, multi-element systems that contain five or more principal elements and have unique and excellent properties. However, it is difficult to overcome the inherent complexity and high levels of control required to produce homogeneous alloys industrially using a conventional casting method. We applied an additive manufacturing technique involving the use of selective electron beam melting (SEBM), which can facilitate a high level of local process control and generate rapid solidification cooling rates. The mechanical properties of the equiatomic AlCoCrFeNi HEA molds produced by SEBM were far superior to those of the corresponding castings. The ductility in particular was remarkably improved. The fracture strength was above 1400MPa, which was more than six times higher than that of SUS304, a conventional engineering material. We succeeded in demonstrating for the first time that SEBM is a promising manufacturing process for utilizing HEAs as engineering materials. •We succeeded in applying selective electron beam melting to the AlCoCrFeNi high-entropy alloy.•The mechanical properties of the molds were far superior to those of the corresponding castings.•The ductility in particular was remarkably enhanced by selective electron beam melting.•The fracture strength was above 1400MPa, which was more than six times higher than that of SUS304.
AbstractList High-entropy alloys (HEAs) are equiatomic, multi-element systems that contain five or more principal elements and have unique and excellent properties. However, it is difficult to overcome the inherent complexity and high levels of control required to produce homogeneous alloys industrially using a conventional casting method. We applied an additive manufacturing technique involving the use of selective electron beam melting (SEBM), which can facilitate a high level of local process control and generate rapid solidification cooling rates. The mechanical properties of the equiatomic AlCoCrFeNi HEA molds produced by SEBM were far superior to those of the corresponding castings. The ductility in particular was remarkably improved. The fracture strength was above 1400MPa, which was more than six times higher than that of SUS304, a conventional engineering material. We succeeded in demonstrating for the first time that SEBM is a promising manufacturing process for utilizing HEAs as engineering materials.
High-entropy alloys (HEAs) are equiatomic, multi-element systems that contain five or more principal elements and have unique and excellent properties. However, it is difficult to overcome the inherent complexity and high levels of control required to produce homogeneous alloys industrially using a conventional casting method. We applied an additive manufacturing technique involving the use of selective electron beam melting (SEBM), which can facilitate a high level of local process control and generate rapid solidification cooling rates. The mechanical properties of the equiatomic AlCoCrFeNi HEA molds produced by SEBM were far superior to those of the corresponding castings. The ductility in particular was remarkably improved. The fracture strength was above 1400MPa, which was more than six times higher than that of SUS304, a conventional engineering material. We succeeded in demonstrating for the first time that SEBM is a promising manufacturing process for utilizing HEAs as engineering materials. •We succeeded in applying selective electron beam melting to the AlCoCrFeNi high-entropy alloy.•The mechanical properties of the molds were far superior to those of the corresponding castings.•The ductility in particular was remarkably enhanced by selective electron beam melting.•The fracture strength was above 1400MPa, which was more than six times higher than that of SUS304.
Author Kuwabara, Kosuke
Koizumi, Yuichiro
Shiratori, Hiroshi
Fujieda, Tadashi
Yamanaka, Kenta
Chiba, Akihiko
Kato, Takahiko
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  givenname: Hiroshi
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  surname: Kato
  fullname: Kato, Takahiko
  organization: Center for Technology Innovation – Materials, Research & Development Group, Hitachi, Ltd., Hitachi 319-1292, Japan
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  surname: Koizumi
  fullname: Koizumi, Yuichiro
  organization: Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan
– sequence: 7
  givenname: Akihiko
  surname: Chiba
  fullname: Chiba, Akihiko
  organization: Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan
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Mechanical properties
High-entropy alloy
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Snippet High-entropy alloys (HEAs) are equiatomic, multi-element systems that contain five or more principal elements and have unique and excellent properties....
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SubjectTerms Alloys
Austenitic stainless steels
Electron beam melting
Fracture strength
High-entropy alloy
Level (quantity)
Materials selection
Mechanical properties
Molds
Selective electron beam melting (SEBM)
Title First demonstration of promising selective electron beam melting method for utilizing high-entropy alloys as engineering materials
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