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Shear‐induced pressure changes and seepage phenomena in a deforming porous layer‐III
M. A. Koenders, Nick Petford
Office of Vice Chancellor
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peer-review
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Dive into the research topics of 'Shear‐induced pressure changes and seepage phenomena in a deforming porous layer‐III'. Together they form a unique fingerprint.
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Keyphrases
Seepage
100%
Pressure Change
100%
Dilatancy
100%
Excess Pore Water Pressure
100%
Magma
50%
External Loading
50%
Solid Earth
50%
Rheology
50%
Characteristic Timescales
50%
Constitutive Law
50%
Buoyancy Force
50%
Granular Materials
50%
Dilatant
50%
Partially Molten
50%
Heave
50%
Viscous Force
50%
Internal Constraints
50%
Deformation Behavior
50%
Fluid Flow
50%
Porous Media
50%
Time-dependent Behavior
50%
Compliant Parts
50%
Analytical Investigation
50%
Flow Independent
50%
Dilatant Effect
50%
Grain Contacts
50%
Engineering
Dilatancy
100%
Excess Pore Pressure
100%
Internals
50%
Rheology
50%
Buoyancy Force
50%
Fluid Flow
50%
External Loading
50%
Deformation Behavior
50%
Constant Time
50%
Viscous Force
50%
Initial Value
50%