Add to ORKGGlass-bonded sodalite is being developed as a ceramic waste form (CWF) to immobilize radioactive fission products, actinides, and salt residues from electrometallurgical treatment of spent nuclear reactor fuel. The CWF consists of about 75 mass % sodalite, 25 mass % glass, and small amounts of other phases. This paper presents some results and interpretation of physical measurements to characterize the CWF structure, and dissolution tests to measure the release of matrix components and radionuclides from the waste form. Tests have been carried out with specimens of the CWF that contain rare earths at concentrations similar to those expected in the waste form. Parallel tests have been carried out on specimens that have uranium or plutonium a...
An electrometallurgical process is being developed at Argonne National Laboratory to treat spent met...
This paper will describe the preparation and progress of the effort at Argonne National Laboratory-W...
This paper presents microscopic characterization of four samples of a ceramic waste form (CWF) devel...
Argonne National Laboratory has developed an electrometallurgical treatment for DOE spent metallic n...
A ceramic waste form (CWF) of glass bonded sodalite is being developed as a waste form for the long-...
Argonne National Laboratory has developed a ceramic waste form to immobilize radioactive waste salt ...
A sodalite/glass ceramic waste form has been developed to immobilize highly radioactive nuclear wast...
A ceramic waste form of glass-bonded zeolite is being developed for the long-term disposition of fis...
Argonne National Laboratory is developing a ceramic waste form to immobilize salt containing fission...
Tests were conducted with ceramic waste form (CWF) materials that contained small amounts of uranium...
This paper reports the results of corrosion tests with monoliths of sodalite, binder glass, and glas...
A glass bonded-sodalite ceramic waste form (CWF) has been developed to immobilize salt wastes from e...
'The objective of this research is to gain a fundamental understanding of the distributions and the ...
A ceramic waste form is being developed for waste generated during electrometallurgical treatment of...
As part of the spent fuel treatment program at Argonne National Laboratory (ANL), a ceramic waste fo...
An electrometallurgical process is being developed at Argonne National Laboratory to treat spent met...
This paper will describe the preparation and progress of the effort at Argonne National Laboratory-W...
This paper presents microscopic characterization of four samples of a ceramic waste form (CWF) devel...
Argonne National Laboratory has developed an electrometallurgical treatment for DOE spent metallic n...
A ceramic waste form (CWF) of glass bonded sodalite is being developed as a waste form for the long-...
Argonne National Laboratory has developed a ceramic waste form to immobilize radioactive waste salt ...
A sodalite/glass ceramic waste form has been developed to immobilize highly radioactive nuclear wast...
A ceramic waste form of glass-bonded zeolite is being developed for the long-term disposition of fis...
Argonne National Laboratory is developing a ceramic waste form to immobilize salt containing fission...
Tests were conducted with ceramic waste form (CWF) materials that contained small amounts of uranium...
This paper reports the results of corrosion tests with monoliths of sodalite, binder glass, and glas...
A glass bonded-sodalite ceramic waste form (CWF) has been developed to immobilize salt wastes from e...
'The objective of this research is to gain a fundamental understanding of the distributions and the ...
A ceramic waste form is being developed for waste generated during electrometallurgical treatment of...
As part of the spent fuel treatment program at Argonne National Laboratory (ANL), a ceramic waste fo...
An electrometallurgical process is being developed at Argonne National Laboratory to treat spent met...
This paper will describe the preparation and progress of the effort at Argonne National Laboratory-W...
This paper presents microscopic characterization of four samples of a ceramic waste form (CWF) devel...