Keyphrases
Shale
100%
Microwave Heating
100%
Multiscale Modeling
100%
Heating-induced
100%
Horizontal Stress
66%
Stress Damage
66%
Tensile Stress
66%
Simulation Approach
66%
Grain Interfaces
66%
Sampling Scale
66%
Scale Characterization
33%
Hydrocarbons
33%
Lamellae
33%
High Dielectric Permittivity
33%
Mathematical Model
33%
Shear Stress
33%
Mechanical Interaction
33%
High-permittivity
33%
Geometry Structure
33%
Effectiveness Evaluation
33%
Normal Stress
33%
Temperature Evolution
33%
Micro-mechanism
33%
Conversion Efficiency
33%
Damage Process
33%
Microscopic Observation
33%
High Volume Fraction
33%
Thermal Stressing
33%
Intergranular Fracture
33%
Electromagnetic Heating
33%
Structure Interaction
33%
Evolution Profile
33%
Thermomechanical Characteristics
33%
Damage Fracture
33%
Shale Matrix
33%
Low Permittivity
33%
Microwave Irradiation
33%
Three-mode
33%
Gas Shale
33%
Rock Failure
33%
Coupled Electromagnetic
33%
Shale Sample
33%
Microwave Treatment
33%
Fractured Formation
33%
Damage Response
33%
Shear Damage
33%
Mineral Scale
33%
Engineering
Multiscale Modeling
100%
Microwave Heating
100%
Horizontal Stress
66%
Tensile Stress σ
66%
Microscale
33%
Dielectrics
33%
Mechanical Interaction
33%
Shale Gas
33%
Conversion Efficiency
33%
Macroscale
33%
Damage Process
33%
High Volume Fraction
33%
Generated Stress
33%
Structure Interaction
33%
Intergranular Fracture
33%
Shear Damage
33%
Transgranular Fracture
33%
Material Science
Permittivity
100%
Ultimate Tensile Strength
66%
Mechanical Property
33%
Volume Fraction
33%
Shale Gas
33%
Intergranular Fracture
33%
Transgranular Fracture
33%
Earth and Planetary Sciences
Fracturing
100%
Permittivity
100%
Chemical Engineering
Microwave Heating
100%
Mineral Scales
33%