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An Atom-probe Tomography Study of the Stability of Oxide-dispersion Strengthening Particles in 14YWT exposed to Neutron Irradiation

  • Karen Kruska (a1), Danny J Edwards (a1), Jing Wang (a1), Takuya Yamamoto (a2), Charles H Henager (a1), Richard J Kurtz (a1) and G Robert Odette (a2)...
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      An Atom-probe Tomography Study of the Stability of Oxide-dispersion Strengthening Particles in 14YWT exposed to Neutron Irradiation
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      An Atom-probe Tomography Study of the Stability of Oxide-dispersion Strengthening Particles in 14YWT exposed to Neutron Irradiation
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      An Atom-probe Tomography Study of the Stability of Oxide-dispersion Strengthening Particles in 14YWT exposed to Neutron Irradiation
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Abstract

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Corresponding author

*Corresponding author: karen.kruska@pnnl.gov

References

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[1]Abdou, M. et al. , Fusion Engineering and Design 100 (2015) 2-43.
[2]Yamamoto, T. et al. , J Nucl Mater 367-370 (2007) 399-410.
[3]Kurtz, R.J. et al. , J Nucl Mater 367-370 (2007) 417-422.
[4]Williams, C.A. et al. , J Nucl Mater 400 (2010) 37-45.
[5]Miller, M.K. et al. , Intermetallics 13 (2005) 387-392.
[6]Hosemann, P. et al. , J Nucl Mater 417 (2011) 274-278.
[7]Wang, J. et al. , Microsc Microanal, In press (2019).
[8]Acknowledgement: The work was performed at Pacific Northwest National Laboratory (PNNL), which is operated by Battelle for the United States Department of Energy (DOE) under Contract DE-AC06-76RL0-1830. This research is funded by the DOE Office of Fusion Energy Sciences under contract DE-AC05-76RL01830. A portion of this work was performed using EMSL, a national scientific user facility sponsored by DOE's Office of Biological and Environmental Research located at PNNL.

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