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Materials for Nuclear Waste Immobilization
Michael I. Ojovan and Neil C. Hyatt
2020
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The book outlines recent advances in nuclear wasteform materials including glasses, ceramics and cements and spent nuclear fuel. It focuses on durability aspects and contains data on performance of nuclear wasteforms as well as expected behavior in a disposal environment.
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Keywords
- actinides
- alkali borosilicate glass
- americium
- borosilicate glass corrosion
- burnup credit
- caesium phosphomolybdate
- Ceramics
- Cesium
- cesium adsorbed
- chlorine
- conditioning
- Corrosion
- criticality safety
- crystalline ceramics
- durability
- forward dissolution rate
- fractional release
- geological repository
- geopolymer
- Glass
- glass composite materials
- hazardous water
- heavy ion irradiation
- immobilisation
- immobilization
- in situ fluid-cell Raman spectroscopy
- inorganic synthesis
- iodine
- lanthanum
- layered double hydroxides LDH
- leaching
- leaching processes
- lesukite
- loading curves
- magnesium potassium phosphate compound
- Microscopy
- modeling
- neodymium
- nuclear waste
- paper sludge ash
- Plutonium
- Radioactive cesium
- radionuclide
- Rare Earth Elements
- research reactor fuel element U3Si2-Al
- safe storage
- seawater
- secondary phases
- sedimentation
- silver iodide
- sintering
- spark plasma sintering
- spent nuclear fuel
- strontium
- uranium
- vitrification
- waste form
- wasteforms
- zeolite polymer composite fiber
- zirconium molybdate