NSUF 24-4874: Radiation behavior of grain boundary-decorated nanocrystalline high-entropy alloy
This work investigates the potential technological benefits of stabilized nanocrystalline high-entropy material as a new approach to improve the radiation tolerance of materials for nuclear application. As a starting point, we will study AlCoCrFe-Zr nanocrystalline alloy. The alloy is designed following a thermodynamic approach—a small amount of doping element (Zr) decorates the grain boundaries of the primary alloy (AlCoCrFe) to completely offset or reduce the excess energy there (grain boundaries). AlCoCrFe HEA will be mechanically-alloyed with Zr of low bulk solubility to develop a “forced” solid-solution and a nanocrystalline structure; this is subsequently followed by a heat treatment process that drives Zr to the GB of AlCoCrFe to establish a GB-stabilized NC AlCoCrFe-Zr alloy. This research, which will be completed within the 9-month duration of the RTE award, will help us understand the role of grain boundary decoration in the improvement of both the thermal stability and radiation response of nanocrystalline AlCoCrFe-Zr alloy. Our understanding of AlCoCrFe-Zr alloy can be translated to GB stabilization of other complex multicomponent NC alloys.
추가 정보
| 필드 | 값 |
|---|---|
| Award Announced Date | 2024-02-02T12:33:40.293 |
| Awarded Institution | University of Calgary |
| Facility Tech Lead | Simerjeet Gill, Wei-Ying Chen |
| Irradiation Facility | Intermediate Voltage Electron Microscopy (IVEM)-Tandem Facility |
| PI | AHMED ALADE TIAMIYU |
| PI Email | [email protected] |
| Project Type | RTE |
| RTE Number | None |