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Keyphrases
Microstructural Characteristics
100%
Water-saturated
100%
MX-80 Bentonite
100%
Swelling Clay
100%
Acid-activated Bentonite
100%
Finland
66%
Fine Fraction
66%
Cm(III)
66%
Atomic Force Microscopy
33%
Microstructure
33%
Pore Structure
33%
Groundwater
33%
Safety Analysis
33%
Performance Analysis
33%
Final Disposal
33%
Microstructural
33%
No Significant Difference
33%
Sorption
33%
Nuclear Magnetic Resonance
33%
Disposal Repository
33%
Spent nuclear Fuel
33%
Laboratory Results
33%
Sodium
33%
Clay
33%
Bulk Material
33%
Small-angle X-ray Scattering
33%
Cation Exchange
33%
Transmission Electron Microscopy
33%
Clay Platelets
33%
MX-80
33%
Compacted Clay
33%
Compensating Cations
33%
Dry Density
33%
Sodium Bentonite
33%
High-level Radioactive Waste Repository
33%
Surface Complexation
33%
Long Lifespan
33%
Degree of Compaction
33%
Cation Composition
33%
Elongated Shape
33%
Magnetic Transmission
33%
Water Transport Model
33%
Sampling Density
33%
Water-saturated State
33%
Average Shape
33%
INIS
comparative evaluations
100%
water
100%
microstructure
100%
swelling
100%
clays
100%
bentonite
100%
density
50%
shape
50%
finland
33%
modeling
33%
sodium
33%
performance
16%
surfaces
16%
safety
16%
data
16%
atomic force microscopy
16%
size
16%
charges
16%
diffusion
16%
transmission electron microscopy
16%
spent fuels
16%
ground water
16%
sorption
16%
laboratories
16%
lifetime
16%
x-ray diffraction
16%
pore structure
16%
cations
16%
nuclear magnetic resonance
16%
high-level radioactive wastes
16%
calcium
16%
ion exchange
16%
transport theory
16%
Material Science
Density
100%
Sodium
66%
Pore Structure
33%
Nuclear Fuel
33%
Surface Complexation
33%
Transmission Electron Microscopy
33%
Atomic Force Microscopy
33%
Nuclear Magnetic Resonance
33%
Platelet
33%