Severe local lattice distortion in Zr- and/or Hf-containing refractory multi-principal element alloys
Whereas exceptional mechanical and radiation performances have been found in the emergent body-centered cubic (BCC) refractory multi-principal element alloys (RMPEAs), the importance of their complex atomic environment, reflecting diversity in atomic size and chemistry, has been largely unexplored a...
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| Veröffentlicht in: | Acta materialia 2020-01, Vol.183 (C), p.172-181 |
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| creator | Tong, Yang Zhao, Shijun Bei, Hongbin Egami, Takeshi Zhang, Yanwen Zhang, Fuxiang |
| description | Whereas exceptional mechanical and radiation performances have been found in the emergent body-centered cubic (BCC) refractory multi-principal element alloys (RMPEAs), the importance of their complex atomic environment, reflecting diversity in atomic size and chemistry, has been largely unexplored at the atomic level. Here, we adopt a local structure approach based on the atomic pair distribution function measurements in combination with density functional theory (DFT) calculations to investigate a series of BCC RMPEAs. Our results demonstrate that all the analyzed RMPEAs exhibit local lattice distortions (LLD) to some extent, but a severe LLD, a breakdown of the 15% atomic size difference in Hume-Rothery rules, occurs only in the Zr- and/or Hf-containing RMPEAs. In addition, through the DFT calculations we show that charge transfer among the elements profoundly reduces the size mismatch effect in average to stabilize this energy-unfavorable severe LLD. The observed competitive coexistence between LLD and charge transfer demonstrates the importance of the electronic effects on the local environments in RMPEAs.
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| doi_str_mv | 10.1016/j.actamat.2019.11.026 |
| format | Article |
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| subjects | Charge transfer Density functional theory calculation Local lattice distortion Multi-principal element alloys |
| title | Severe local lattice distortion in Zr- and/or Hf-containing refractory multi-principal element alloys |
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