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Thermal cycling: impact on bentonite permeability
Stephanie Zihms, J. F. Harrington
School of Energy, Geoscience, Infrastructure and Society
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Citations (Scopus)
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INIS
permeability
100%
bentonite
100%
thermal cycling
100%
hydraulics
80%
rocks
60%
barriers
60%
performance
40%
boundary conditions
40%
host
40%
data
20%
capacity
20%
water
20%
storage
20%
hydration
20%
wastes
20%
volume
20%
loading
20%
swelling
20%
heat
20%
transients
20%
viscosity
20%
radioactive wastes
20%
Engineering
Hydraulics
100%
Boundary Condition
50%
Host Rock
50%
Backfill Material
25%
Equilibrate
25%
Thermal Cycle
25%
Term Performance
25%
Mechanical Response
25%
Constant Volume
25%
Continuous Measurement
25%
Swelling Capacity
25%
Transients
25%
Fluid Viscosity
25%
Hard Rock
25%
Earth and Planetary Sciences
Bentonite
100%
Boundary Condition
40%
Host Rock
40%
Backfill
20%
Hard Rock
20%
Radioactive Waste
20%
Geological Storage
20%
Material Science
Thermal Cycling
100%
Hydraulics
100%
Crystalline Material
25%
Radioactive Waste
25%