%0 Figure
%A Copeland-Johnson, Trishelle
%A Bowler, Nicola
%A Smith, Emily A.
%A Nyamekye, Charles
%A Rebak, Raúl
%A Ecker, Lynne
%A Gill, Simerjeet
%D 2020
%T Analysis of ferritic Cr-Mo-V steel T91 (UNS: K90901) after oxidation at 1200 C for 2 h using synchrotron x-ray diffraction
%U https://iastate.figshare.com/articles/figure/Analysis_of_ferritic_Cr-Mo-V_steel_T91_UNS_K90901_after_oxidation_at_1200_C_for_2_h_using_synchrotron_x-ray_diffraction/10252484
%R 10.25380/iastate.10252484.v1
%2 https://iastate.figshare.com/ndownloader/files/19717052
%2 https://iastate.figshare.com/ndownloader/files/19717055
%2 https://iastate.figshare.com/ndownloader/files/19717058
%2 https://iastate.figshare.com/ndownloader/files/19717061
%2 https://iastate.figshare.com/ndownloader/files/20126243
%K x-ray
%K diffraction
%K synchrotron characterization
%K T91
%K Kanthal APMT
%K oxidation
%K Loss of Coolant Accident
%K Beyond Design Basis Accident
%K Nuclear Engineering
%K Materials Engineering not elsewhere classified
%X Synchrotron x-ray
diffraction was used to identify oxidation products and their respective structural
phases on the surface of Cr-Mo-V steel T91 (UNS: K90901) before and after
oxidation at 1200 degrees Celsius for 2 h in steam and air. Tab-delimited text
files are included for the patterns displayed in the high-resolution plot,
listing the momentum transfer of scattering (Q), the intensity, and error
values of the intensity. Text files are truncated to Q = 8 Å-1 because
beyond that point the pattern is only background noise.
%I Iowa State University