NSUF 24-4994: Hybrid proton and heavy ion irradiation for void swelling testing
This study introduces a novel method that combines proton and heavy ion irradiation to investigate void swelling in 316L stainless steel. The initial proton irradiation at 2 displacements per atom (DPA) is designed to induce stable voids, avoiding the complexities introduced by the injected interstitial effect, thus closely replicating reactor conditions. The subsequent heavy ion irradiation targets void growth, addressing the limitations posed by the low DPA rate of proton irradiation. With stable voids already formed during the proton irradiation phase, the defect reaction transitions from point recombination to defect trapping, effectively minimizing the influence of injected interstitial effect. Consequently, this hybrid approach is expected to yield void swelling data that is more accurate compared to heavy ion irradiation alone. This approach bears similarities to the neutron preconditioning approach (reactor + accelerator) but avoids neutron-induced activity and offers significant cost savings.
Additional Info
| Field | Value |
|---|---|
| Award Announced Date | 2024-05-28T17:18:47.773 |
| Awarded Institution | Texas A&M University |
| Facility Tech Lead | Lin Shao, Yaqiao Wu |
| Irradiation Facility | Accelerator Laboratory |
| PI | Benjamin Mejia Diaz |
| PI Email | [email protected] |
| Project Type | RTE |
| RTE Number | None |