Engineering
Evaluation
100%
Performance
100%
Battery (Electrochemical Energy Engineering)
100%
Fiber
100%
Multiscale
100%
Microscale
100%
Macroscale
83%
Models
66%
Conductive Fiber
50%
Active Fiber
50%
Electronic Conductivity
33%
Active Material
33%
Percolation Threshold
33%
Equation Model
33%
Separator
16%
Averaging Method
16%
Microstructure
16%
Conductive Material
16%
Limitations
16%
Transients
16%
Estimation
16%
Material Utilization
16%
Battery Model
16%
Boundary Condition
16%
Anisotropic
16%
Simulation Result
16%
Constitutive Relation
16%
Length Scale
16%
Governing Equation
16%
Existing Model
16%
Fiber Orientation
16%
Source Term
16%
INIS
electrochemistry
100%
evaluation
100%
performance
100%
fibers
100%
electrodes
45%
equations
36%
electrolytes
27%
capacity
27%
transport
27%
simulation
18%
connections
18%
distribution
9%
source terms
9%
matrices
9%
particles
9%
microstructure
9%
diffusion
9%
tensors
9%
anisotropy
9%
information
9%
boundary conditions
9%
nonlinear problems
9%
monte carlo method
9%
volume
9%
physics
9%
tools
9%
concentration
9%
orientation
9%
length
9%
Keyphrases
Active Fiber
100%
Fiber Arrangement
100%
Pseudo-2D Model
66%
Two-equation Model
33%
Transient Diffusion
33%
Effective Material Properties
33%
Effective Electronic Conductivity
33%
Tensor Formats
33%
Separate Treatment
33%
One-equation Model
33%
Random Fibers
33%
Effective Transport Properties
33%