EDS

Particles comprised of a thermal neutron absorbing material (HfAl3) are dispersed in a metal matrix material with high thermal conductivity (aluminum) to conduct the heat generated by neutron capture away from the fuel and materials. This metal matrix composite is very promising for use as a conduction-cooled neutron absorber and has the potential to be useful as a shroud or heat sink for testing advanced fast reactor fuels and materials in an existing thermal reactor. To design and optimize the absorber block system for advanced reactor designs, fundamental understanding of the irradiation effect on material properties is necessary. This dataset contains TEM characterization results of neutron irradiated HfAl3-Al composite specimens. It is focused on the irradiation induced defects (dislocation lines and loops) characterization using the on-zone axis bright field STEM technique. This data was collected using a FEI Tecnai G2 F30 S/TEM at the Microscopy and Characterization Suite (MaCS), Center for Advanced Energy Studies (CAES).

Data och resurser

Datatype Name Last Modified
STEM_6-24-22_4102_24kx_A15B0_area 005_1.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_17kx_A15B0_area 004_1.ser

december 6, 2024, 19:10 (UTC)
EDS03_Hf.txt

december 6, 2024, 19:10 (UTC)
EDS05_Al.txt

december 6, 2024, 19:10 (UTC)
EDS03.tif

december 6, 2024, 19:10 (UTC)
EDS03.png

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 004.emi

december 6, 2024, 19:10 (UTC)
EDS03_linescan_A15B0_190kx_area 003.emi

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_135kx_area 005_1.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_48kx_A15B0_area 004.tif

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_48kx_A15B0_area 004.png

december 6, 2024, 19:10 (UTC)
EDS04_Hf.txt

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_48kx_A15B0_area 004_1.ser

december 6, 2024, 19:10 (UTC)
EDS05 area 6.tif

december 6, 2024, 19:10 (UTC)
EDS05 area 6.png

december 6, 2024, 19:10 (UTC)
EDS03_Al.txt

december 6, 2024, 19:10 (UTC)
EDS05 area 6_Hf.txt

december 6, 2024, 19:10 (UTC)
EDS05_O.txt

december 6, 2024, 19:10 (UTC)
EDS04_Al.txt

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 005_1.ser

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_135kx_area 005.emi

december 6, 2024, 19:10 (UTC)
EDS02_linescan_A15B0_190kx_area 002_4.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 004_1.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_24kx_A15B0_area 005.tif

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_24kx_A15B0_area 005.png

december 6, 2024, 19:10 (UTC)
EDS05.tif

december 6, 2024, 19:10 (UTC)
EDS05.png

december 6, 2024, 19:10 (UTC)
EDS03_linescan_A15B0_190kx_area 003_1.ser

december 6, 2024, 19:10 (UTC)
EDS02.tif

december 6, 2024, 19:10 (UTC)
EDS02.png

december 6, 2024, 19:10 (UTC)
EDS04.tif

december 6, 2024, 19:10 (UTC)
EDS04.png

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_135kx_area 006_1.ser

december 6, 2024, 19:10 (UTC)
EDS01_linescan_A15B0_190kx_area 001.emi

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_34kx_area 006_1.ser

december 6, 2024, 19:10 (UTC)
EDS02_linescan_A15B0_190kx_area 002_2.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_24kx_A15B0_area 005.emi

december 6, 2024, 19:10 (UTC)
EDS03_O.txt

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_17kx_A15B0_area 004.emi

december 6, 2024, 19:10 (UTC)
EDS01_linescan_A15B0_190kx_area 001_1.ser

december 6, 2024, 19:10 (UTC)
EDS04_linescan_A15B0_135kx_area 004.emi

december 6, 2024, 19:10 (UTC)
EDS02.txt

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_48kx_A15B0_area 004.emi

december 6, 2024, 19:10 (UTC)
EDS02_linescan_A15B0_190kx_area 002_1.ser

december 6, 2024, 19:10 (UTC)
EDS05 area 6_Al.txt

december 6, 2024, 19:10 (UTC)
EDS02_linescan_A15B0_190kx_area 002.emi

december 6, 2024, 19:10 (UTC)
EDS05 area 6_O.txt

december 6, 2024, 19:10 (UTC)
EDS05_Hf.txt

december 6, 2024, 19:10 (UTC)
EDS02_linescan_A15B0_190kx_area 002_3.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 004.tif

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 004.png

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_34kx_area 006.emi

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_135kx_A15B0_area 005.emi

december 6, 2024, 19:10 (UTC)
EDS05_linescan_A15B0_135kx_area 006.emi

december 6, 2024, 19:10 (UTC)
EDS04_linescan_A15B0_135kx_area 004_1.ser

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_17kx_A15B0_area 004.tif

december 6, 2024, 19:10 (UTC)
STEM_6-24-22_4102_17kx_A15B0_area 004.png

december 6, 2024, 19:10 (UTC)

Mer information

Fält Värde
Författare Donna Guillen, Yu Lu, Yaqiao Wu
Senast uppdaterad december 6, 2024, 19:10 (UTC)
Skapad december 6, 2024, 19:10 (UTC)
DOI Link https://doi.org/10.48806/2478162
Instrument FEI Tecnai G2 F30 STEM
Statement of Credit This work was performed by Battelle Energy Alliance, LLC under the DOE Idaho Operations Contract DE-AC07-05ID14517. Neutron irradiation in the ATR was conducted through DOE Office of Nuclear Energy, Nuclear Science User Facilities (NSUF) project BSU-15-8242. Post-irradiation examination was performed through NSUF Rapid Turnaround Experiment 21-4280.