INIS
interactions
100%
water
100%
bentonite
100%
nuclear fuels
100%
minerals
30%
calcite
30%
montmorillonite
30%
pyrite
30%
precipitation
20%
oxygen
20%
sulfates
20%
ground water
20%
ions
20%
calcium ions
20%
gypsum
20%
goethite
20%
siderite
20%
simulation
10%
solutions
10%
buffers
10%
concentration
10%
space
10%
barriers
10%
wastes
10%
diffusion
10%
oxidation
10%
dissolution
10%
closures
10%
prediction
10%
laboratories
10%
sulfides
10%
ph value
10%
x-ray diffraction
10%
quartz
10%
cations
10%
clays
10%
canisters
10%
sodium
10%
radioactive wastes
10%
illite
10%
ion exchange
10%
geochemistry
10%
optical microscopes
10%
bicarbonates
10%
feldspars
10%
Keyphrases
Bentonite
100%
Nuclear Fuel
100%
Pyrite
30%
Alteration Processes
30%
Groundwater
20%
Calcium Ion
20%
Gypsum
20%
Montmorillonite
20%
Goethite
20%
Siderite
20%
Radioactive Waste
10%
Near-field
10%
Silica
10%
Sulfide
10%
Pore Space
10%
Illite
10%
Sodium
10%
Oxidation Reaction
10%
Oxidizing Conditions
10%
Buffer Material
10%
Oxygen Content
10%
Ion Exchange
10%
Mechanical Barrier
10%
Sealing Material
10%
Water pH
10%
MX-80
10%
Ca-montmorillonite
10%
Pore Water
10%
Optical Microscope
10%
Secondary Minerals
10%
Sulfate Ion
10%
Mineral Alteration
10%
Clay Type
10%
Feldspar
10%
HCO3
10%
Mineral Products
10%
Semi-closed System
10%
PH Decrease
10%
Long-term Interaction
10%
Mineralogical Study
10%
Expandable Clays
10%
Bicarbonate Ion
10%
Chemical Barrier
10%
Ca-bearing Minerals
10%
Ferric Ion
10%
Microscope Observation
10%
X-ray Diffraction (XRD) Analysis
10%
High Water
10%
Waste Canisters
10%
Earth and Planetary Sciences
Nuclear Fuel
100%
Bentonite
100%
Montmorillonite
30%
Calcite
30%
Clay Mineral
30%
Goethite
20%
Siderite
20%
Pore Space
10%
Oxygen Content
10%
Can
10%
Porewater
10%
Secondary Mineral
10%
Mineral Alteration
10%
Optical Microscope
10%
Geochemistry
10%
Powder X-Ray Diffraction
10%
Illite
10%
Radioactive Waste
10%
Ion Exchange
10%