Keyphrases
Battery Anode
100%
Crack Pattern
100%
Modeling Approach
100%
Material Design
100%
Process-based
100%
Anode Material
100%
Delithiation
100%
Gaussian Process
100%
Pattern Model
100%
Si Anode
66%
Finite Element Simulation
33%
Multiphysics
33%
Finite Element Model
33%
High Stress
33%
Energy Density
33%
High Power
33%
Yield Strength
33%
Lithium-ion Battery
33%
Physics-based
33%
Volume Change
33%
Crack Initiation
33%
Lithium-ion Battery Electrode
33%
Lithiation
33%
Design Space
33%
Silicon Anode
33%
Internal Geometry
33%
Cracking Behavior
33%
Decoupled Finite Element Method
33%
Coating Layer
33%
Pulverization
33%
Cohesive Strength
33%
Electrochemical Process
33%
Surrogate Model
33%
Anode Design
33%
Si Coating
33%
Gaussian Process Surrogate
33%
Crack Generation
33%
Process Generation
33%
Engineering
Gaussians
100%
Delithiation
100%
Anode Materials for Batteries
100%
Lithium-Ion Batteries
66%
Surrogate Model
66%
Finite Element Simulation
33%
Finite Element Modeling
33%
Building Block
33%
Crack Initiation
33%
Promising Candidate
33%
Layer Coating
33%
Cohesive Strength
33%
Cracking Behavior
33%
Electrochemical Process
33%
Design Space
33%
Anode Design
33%
Flux Density
33%
Yield Point
33%
Material Science
Anode
100%
Materials Design
100%
Lithium Ion Battery
33%
Finite Element Method
16%
Yield Stress
16%
Silicon
16%
Energy Density
16%
Finite Element Modeling
16%
Crack Initiation
16%