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Triaxial Deformation of the Goldwyer Gas Shale at In Situ Stress Conditions—Part II: Viscoelastic Creep/Relaxation and Frictional Failure
Partha Pratim Mandal
*
, Joel Sarout
, Reza Rezaee
*
Corresponding author for this work
Indian Institute of Technology, Dhanbad
Curtin University
CSIRO
Research output
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Article
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peer-review
8
Citations (Scopus)
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Dive into the research topics of 'Triaxial Deformation of the Goldwyer Gas Shale at In Situ Stress Conditions—Part II: Viscoelastic Creep/Relaxation and Frictional Failure'. Together they form a unique fingerprint.
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Keyphrases
Viscoelastic Creep
100%
Frictional Failure
100%
Triaxial Deformation
100%
Shear Fracturing
20%
Laboratory Triaxial Test
20%
Clay Rock
20%
Primary Creep
20%
Simple Power Law
20%
Creep Time
20%
Power-law Function
20%
Shale Composition
20%
Hydraulic Fracturing Simulation
20%
Low-pressure Gas Adsorption
20%
Axial Creep
20%
Elastic Compliance
20%
Time-dependent Factors
20%
Creep Strain
20%
Compliance Constants
20%
Organic-rich Rocks
20%
Geological Time Scale
20%
Creep Constitutive
20%
Creep Parameters
20%
Mineral Components
20%
Engineering
In Situ Stress
100%
Dependent Factor
12%
Elastic Compliance
12%
Gas Adsorption
12%
Material Science
In Situ Stress
100%
Creep Property
10%
Primary Creep
10%
Earth and Planetary Sciences
Gas Adsorption
20%