Add to ORKGMicrostructural characterization of irradiated dispersion and monolithic RERTR fuel plates using scanning electron microscopy (SEM) is being performed in the Electron Microscopy Laboratory at the Idaho National Laboratory. The SEM analysis of samples from U-Mo dispersion fuel plates focuses primarily on the behavior of the Si that has been added to the Al matrix to improve the irradiation performance of the fuel plate and on the overall behavior of fission gases (e.g., Xe and Kr) that develop as bubbles in the fuel microstructure. For monolithic fuel plates, microstructural features of interest, include those found in the U-Mo foil and at the U-Mo/Zr and Zr/6061 Al cladding interfaces. For both dispersion and monolithic fuel plates, samples...
A variety of phases have the potential to develop in the irradiated fuels for the reduced enrichment...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
The HERACLES group and the US-DOE work jointly to develop dispersed U(Mo)/Al as LEU fuel for convers...
In order to investigate how the microstructure of fuel/matrix-interaction (FMI) layers change during...
Transmission electron microscopy (TEM) has been used to characterize an irradiated fuel plate with A...
The recent development on TEM work of irradiated RERTR fuels includes microstructural characterizati...
For higher U-loading in low-enriched U-10 wt.%Mo fuels, monolithic fuel plate clad in AA6061 is bein...
For higher U-loading in low-enriched U-10 wt.%Mo fuels, monolithic fuel plate clad in AA6061 is bein...
The starting microstructure of a dispersion fuel plate will impact the overall performance of the pl...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
The starting microstructure of a dispersion fuel plate will impact the overall performance of the pl...
The starting microstructure of a fuel plate will impact how it performs during irradiation. As a res...
A U-7Mo alloy/6061 Al alloy matrix mini-dispersion fuel plate was irradiated in the Advanced Test Re...
The starting microstructure of a dispersion fuel plate can have a dramatic impact on the overall per...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
A variety of phases have the potential to develop in the irradiated fuels for the reduced enrichment...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
The HERACLES group and the US-DOE work jointly to develop dispersed U(Mo)/Al as LEU fuel for convers...
In order to investigate how the microstructure of fuel/matrix-interaction (FMI) layers change during...
Transmission electron microscopy (TEM) has been used to characterize an irradiated fuel plate with A...
The recent development on TEM work of irradiated RERTR fuels includes microstructural characterizati...
For higher U-loading in low-enriched U-10 wt.%Mo fuels, monolithic fuel plate clad in AA6061 is bein...
For higher U-loading in low-enriched U-10 wt.%Mo fuels, monolithic fuel plate clad in AA6061 is bein...
The starting microstructure of a dispersion fuel plate will impact the overall performance of the pl...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
The starting microstructure of a dispersion fuel plate will impact the overall performance of the pl...
The starting microstructure of a fuel plate will impact how it performs during irradiation. As a res...
A U-7Mo alloy/6061 Al alloy matrix mini-dispersion fuel plate was irradiated in the Advanced Test Re...
The starting microstructure of a dispersion fuel plate can have a dramatic impact on the overall per...
RERTR U-Mo dispersion fuel plates are being developed for application in research reactors throughou...
A variety of phases have the potential to develop in the irradiated fuels for the reduced enrichment...
Understanding the microstructural and phase changes occurring during irradiation and their impact on...
The HERACLES group and the US-DOE work jointly to develop dispersed U(Mo)/Al as LEU fuel for convers...