Ferritic/martensitic alloys are required for advanced reactor components to survive 500e600 neutroninduced dpa. Ion-induced void swelling of ferritic/martensitic alloy T91 in the quenched and tempered condition has been studied using a defocused, non-rastered 3.5 MeV Fe-ion beam at 475 C to produce damage levels up to 1000 peak displacements per atom (dpa). The high peak damage level of 1000 dpa is required to reach 500e600 dpa level due to injected interstitial suppression of void nucleation in the peak dpa region, requiring data extraction closer to the surface at lower dpa levels. At a relatively low peak damage level of 250 dpa, voids began to develop, appearing first in the near-surface region. With increasing ion fluence, swelling was observed deeper in the specimen, but remained completely suppressed in the back half of the ion range, even at 1000 peak dpa. The local differences in dpa rate in the front half of the ion range induce an “internal temperature shift” that strongly influences the onset of swelling, with shorter transient regimes resulting from lower dpa rates, in agreement not only with observations in neutron irradiation studies but also in various ion irradiations. Swelling was accompanied by radiation-induced precipitation of Cu-rich and Si, Ni, Mn-rich phases were observed by atom probe tomography, indicating concurrent microchemical evolution was in progress. In comparison to other ferritic/martensitic alloys during ion irradiation, T91 exhibits good swelling resistance with a swelling incubation period of about 400 local dpa.
Gigax, J. G., et al. "Radiation response of alloy T91 at damage levels up to 1000 peak dpa." Journal of Nuclear Materials, vol. 482, no. C, Nov. 2016. https://doi.org/10.1016/j.jnucmat.2016.10.003
Gigax, J. G., Chen, T., Kim, Hyosim, Wang, J., Price, L. M., Aydogan, E., Maloy, S. A., Schreiber, D. K., Toloczko, M. B., Garner, F. A., & Shao, Lin (2016). Radiation response of alloy T91 at damage levels up to 1000 peak dpa. Journal of Nuclear Materials, 482(C). https://doi.org/10.1016/j.jnucmat.2016.10.003
Gigax, J. G., Chen, T., Kim, Hyosim, et al., "Radiation response of alloy T91 at damage levels up to 1000 peak dpa," Journal of Nuclear Materials 482, no. C (2016), https://doi.org/10.1016/j.jnucmat.2016.10.003
@article{osti_1340788,
author = {Gigax, J. G. and Chen, T. and Kim, Hyosim and Wang, J. and Price, L. M. and Aydogan, E. and Maloy, S. A. and Schreiber, D. K. and Toloczko, M. B. and Garner, F. A. and others},
title = {Radiation response of alloy T91 at damage levels up to 1000 peak dpa},
annote = {Ferritic/martensitic alloys are required for advanced reactor components to survive 500e600 neutroninduced dpa. Ion-induced void swelling of ferritic/martensitic alloy T91 in the quenched and tempered condition has been studied using a defocused, non-rastered 3.5 MeV Fe-ion beam at 475 C to produce damage levels up to 1000 peak displacements per atom (dpa). The high peak damage level of 1000 dpa is required to reach 500e600 dpa level due to injected interstitial suppression of void nucleation in the peak dpa region, requiring data extraction closer to the surface at lower dpa levels. At a relatively low peak damage level of 250 dpa, voids began to develop, appearing first in the near-surface region. With increasing ion fluence, swelling was observed deeper in the specimen, but remained completely suppressed in the back half of the ion range, even at 1000 peak dpa. The local differences in dpa rate in the front half of the ion range induce an “internal temperature shift” that strongly influences the onset of swelling, with shorter transient regimes resulting from lower dpa rates, in agreement not only with observations in neutron irradiation studies but also in various ion irradiations. Swelling was accompanied by radiation-induced precipitation of Cu-rich and Si, Ni, Mn-rich phases were observed by atom probe tomography, indicating concurrent microchemical evolution was in progress. In comparison to other ferritic/martensitic alloys during ion irradiation, T91 exhibits good swelling resistance with a swelling incubation period of about 400 local dpa.},
doi = {10.1016/j.jnucmat.2016.10.003},
url = {https://www.osti.gov/biblio/1340788},
journal = {Journal of Nuclear Materials},
issn = {ISSN 0022-3115},
number = {C},
volume = {482},
place = {United States},
publisher = {Elsevier},
year = {2016},
month = {11}}
Ziegler, James F.; Ziegler, M. D.; Biersack, J. P.
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, Vol. 268, Issue 11-12https://doi.org/10.1016/j.nimb.2010.02.091