Abstract

Irradiation-induced microstructure in Fe‒Cr model alloys, 0.5 MeV-He ion-irradiated at room temperature, was investigated by atom probe tomography (APT). The APT results showed the formation of Cr-atom clustering depending on the ion-penetration depth. Although the Cr-atom clustering was observed in the irradiation damaged zone, this effect was not dominant in the less-damaged zone. In addition, we performed computer simulations using the Metropolis–Monte Carlo (MMC) method for investigating the tendency to form Cr-atom clustering in binary Fe‒Cr alloys. The simulation results revealed the formation of Cr-atom clustering. The degree of Cr-atom clustering for the APT analysis and the MMC simulation was verified by plotting the Cr‒Cr radiation distribution function. It was found that the number of Cr atoms, located in the first and second nearest-neighboring sites, increased significantly. Both results support the formation of Cr-clustering, which is believed to be a source of radiation hardening. The application of two techniques, APT and the MMC simulation, provided complementary information on the radiation-induced microstructure.

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