High-temperature martensitic transformation of CuNiHfTiZr high- entropy alloys

One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entro...

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Published inScientific reports Vol. 9; no. 1; pp. 19598 - 7
Main Authors Chang, Shan-Hsiu, Lin, Po-Ting, Tsai, Che-Wei
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 20.12.2019
Nature Publishing Group
Subjects
639/301/1023/1026
639/301/930/1032
Alloys
High temperature
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
Temperature
Thermal expansion
X-ray diffraction
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-019-55762-y

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Abstract One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi) 50 and (HfTiZr) 50 . The content of Cu in (CuNi) 50 is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu 15 Ni 35 Hf 16.67 Ti 16.67 Zr 16.67 possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.
AbstractList One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi)50 and (HfTiZr)50. The content of Cu in (CuNi)50 is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu15Ni35Hf16.67Ti16.67Zr16.67 possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi)50 and (HfTiZr)50. The content of Cu in (CuNi)50 is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu15Ni35Hf16.67Ti16.67Zr16.67 possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.
One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi) 50 and (HfTiZr) 50 . The content of Cu in (CuNi) 50 is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu 15 Ni 35 Hf 16.67 Ti 16.67 Zr 16.67 possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.
One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi)50 and (HfTiZr)50. The content of Cu in (CuNi)50 is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu15Ni35Hf16.67Ti16.67Zr16.67 possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.
One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier, researchers have tried to enhance the transformation temperatures by addition of alloying elements or even by introducing the concept of high-entropy alloys (HEAs). In this study, the CuNiHfTiZr HEAs were developed for high-temperature shape memory effect. Based on their solubility and electron configurations, the alloying elements are divided into two groups, (CuNi) and (HfTiZr) . The content of Cu in (CuNi) is modulated to investigate the influences of Cu on martensitic transformation of the HEAs by studying structural evolution and transformation behavior. The results of x-ray diffraction and thermal expansion tests revealed that Cu Ni Hf Ti Zr possesses high transformation temperature, narrow hysteresis temperature loops, and good dimensional stability within this HEA system.
ArticleNumber 19598
Author Chang, Shan-Hsiu
Tsai, Che-Wei
Lin, Po-Ting
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  fullname: Chang, Shan-Hsiu
  organization: Department of Materials Science and Engineering, National Tsing Hua University
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  surname: Lin
  fullname: Lin, Po-Ting
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  givenname: Che-Wei
  surname: Tsai
  fullname: Tsai, Che-Wei
  email: chewei@mx.nthu.edu.tw
  organization: Department of Materials Science and Engineering, National Tsing Hua University, High Entropy Materials Center, National Tsing Hua University
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Snippet One of the major challenges of near-equiatomic NiTi shape memory alloys is their limitation for high-temperature applications. To overcome this barrier,...
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SubjectTerms 639/301/1023/1026
639/301/930/1032
Alloys
High temperature
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
Temperature
Thermal expansion
X-ray diffraction
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Title High-temperature martensitic transformation of CuNiHfTiZr high- entropy alloys
URI https://link.springer.com/article/10.1038/s41598-019-55762-y
https://www.ncbi.nlm.nih.gov/pubmed/31863027
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Volume 9
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