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A New Kinematic Model for Polymodal Faulting: Implications for Fault Connectivity
David Healy, R. E. Rizzo
School of Geosciences
Research output
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Contribution to conference
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Abstract
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peer-review
Overview
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Dive into the research topics of 'A New Kinematic Model for Polymodal Faulting: Implications for Fault Connectivity'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Fault
100%
Kinematics
100%
Implication
100%
Connectivity
100%
Model
100%
Strain
27%
Failure
27%
Criterion
18%
Network
18%
Fluid Flow
9%
Laboratory Experiment
9%
Investigation
9%
Hydrocarbon Reservoir
9%
Thrust
9%
Shape
9%
Permeability
9%
Tectonics
9%
Seismic Hazard
9%
Faulting
9%
Anisotropy
9%
Occurrence
9%
Utilization
9%
Aquifer
9%
Rock
9%
Comparison
9%
Ore Deposit
9%
Regime
9%
Set
9%
Literature
9%
Deformation
9%
Management
9%
Engineering
Connectivity
100%
Kinematic Model
100%
Strain
27%
Networks
18%
Failure Criterion
18%
Plane Strain
9%
Models
9%
Nodes
9%
Intermediate Principal Stress
9%
Fields
9%
Development
9%
Seismic Hazard
9%
Deformation
9%
Shear Failure
9%
Applications
9%
Fluid Flow
9%
Laboratories
9%
Forming
9%
Experiments
9%
Generates
9%