Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations

Chenyang Lu; Taini Yang; Ke Jin; Gihan Velisa; Pengyuan Xiu; Miao Song; Qing Peng; Fei Gao; Yanwen Zhang; Hongbin Bei; William J. Weber; Lumin Wang

doi:10.1080/21663831.2018.1504136

Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations

Chenyang Lu^*, Taini Yang, Ke Jin, Gihan Velisa, Pengyuan Xiu, Miao Song, Qing Peng, Fei Gao, Yanwen Zhang, Hongbin Bei, William J. Weber, Lumin Wang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

The role of dislocations on ion irradiation-induced void formation is studied in a high-entropy alloy (HEA) NiCoFeCrPd. Despite previous observations that show high-entropy alloys are swelling resistant due to a high defect recombination rate, the swelling is enhanced with increasing density of pre-existing dislocations at low strain levels that shortened transient duration before the onset of void swelling. Under certain irradiation conditions, a high density of dislocations may carry the material closer to the sink-dominated regime. Compared to another HEA NiCoFeCrMn, NiCoFeCrPd has a smaller loop size and higher loop density due to the stronger lattice distortion. (Image Presented) IMPACT STATEMENT Swelling behavior in a newly designed high-entropy alloy NiCoFeCrPd has been studied for the first time. Void swelling is enhanced with increasing density of pre-existing dislocations in NiCoFeCrPd.

Original language	English
Pages (from-to)	584-591
Number of pages	8
Journal	Materials Research Letters
Volume	6
Issue number	10
DOIs	https://doi.org/10.1080/21663831.2018.1504136
State	Published - 3 Oct 2018
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2018 The Author(s).

Keywords

Dislocation loops
High-entropy alloy
Ion irradiation
Void swelling

ASJC Scopus subject areas

General Materials Science

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10.1080/21663831.2018.1504136

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title = "Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations",

abstract = "The role of dislocations on ion irradiation-induced void formation is studied in a high-entropy alloy (HEA) NiCoFeCrPd. Despite previous observations that show high-entropy alloys are swelling resistant due to a high defect recombination rate, the swelling is enhanced with increasing density of pre-existing dislocations at low strain levels that shortened transient duration before the onset of void swelling. Under certain irradiation conditions, a high density of dislocations may carry the material closer to the sink-dominated regime. Compared to another HEA NiCoFeCrMn, NiCoFeCrPd has a smaller loop size and higher loop density due to the stronger lattice distortion. (Image Presented) IMPACT STATEMENT Swelling behavior in a newly designed high-entropy alloy NiCoFeCrPd has been studied for the first time. Void swelling is enhanced with increasing density of pre-existing dislocations in NiCoFeCrPd.",

keywords = "Dislocation loops, High-entropy alloy, Ion irradiation, Void swelling",

author = "Chenyang Lu and Taini Yang and Ke Jin and Gihan Velisa and Pengyuan Xiu and Miao Song and Qing Peng and Fei Gao and Yanwen Zhang and Hongbin Bei and Weber, {William J.} and Lumin Wang",

note = "Publisher Copyright: {\textcopyright} 2018 The Author(s).",

year = "2018",

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day = "3",

doi = "10.1080/21663831.2018.1504136",

language = "English",

volume = "6",

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journal = "Materials Research Letters",

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T1 - Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations

AU - Lu, Chenyang

AU - Yang, Taini

AU - Jin, Ke

AU - Velisa, Gihan

AU - Xiu, Pengyuan

AU - Song, Miao

AU - Peng, Qing

AU - Gao, Fei

AU - Zhang, Yanwen

AU - Bei, Hongbin

AU - Weber, William J.

AU - Wang, Lumin

PY - 2018/10/3

Y1 - 2018/10/3

N2 - The role of dislocations on ion irradiation-induced void formation is studied in a high-entropy alloy (HEA) NiCoFeCrPd. Despite previous observations that show high-entropy alloys are swelling resistant due to a high defect recombination rate, the swelling is enhanced with increasing density of pre-existing dislocations at low strain levels that shortened transient duration before the onset of void swelling. Under certain irradiation conditions, a high density of dislocations may carry the material closer to the sink-dominated regime. Compared to another HEA NiCoFeCrMn, NiCoFeCrPd has a smaller loop size and higher loop density due to the stronger lattice distortion. (Image Presented) IMPACT STATEMENT Swelling behavior in a newly designed high-entropy alloy NiCoFeCrPd has been studied for the first time. Void swelling is enhanced with increasing density of pre-existing dislocations in NiCoFeCrPd.

AB - The role of dislocations on ion irradiation-induced void formation is studied in a high-entropy alloy (HEA) NiCoFeCrPd. Despite previous observations that show high-entropy alloys are swelling resistant due to a high defect recombination rate, the swelling is enhanced with increasing density of pre-existing dislocations at low strain levels that shortened transient duration before the onset of void swelling. Under certain irradiation conditions, a high density of dislocations may carry the material closer to the sink-dominated regime. Compared to another HEA NiCoFeCrMn, NiCoFeCrPd has a smaller loop size and higher loop density due to the stronger lattice distortion. (Image Presented) IMPACT STATEMENT Swelling behavior in a newly designed high-entropy alloy NiCoFeCrPd has been studied for the first time. Void swelling is enhanced with increasing density of pre-existing dislocations in NiCoFeCrPd.

KW - Dislocation loops

KW - High-entropy alloy

KW - Ion irradiation

KW - Void swelling

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U2 - 10.1080/21663831.2018.1504136

DO - 10.1080/21663831.2018.1504136

M3 - Article

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SN - 2166-3831

VL - 6

SP - 584

EP - 591

JO - Materials Research Letters

JF - Materials Research Letters

IS - 10

ER -

Enhanced void swelling in NiCoFeCrPd high-entropy alloy by indentation-induced dislocations

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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