Engineering
Electrical Steel
100%
Anisotropic
66%
Optimization Approach
66%
Model Calibration
66%
High Cycle Fatigue
66%
Hysteresis Loss
61%
Mechanical Stress
55%
Constitutive Model
55%
Experimental Result
44%
Electrical Machine
33%
Plastic Deformation
33%
Damage Model
33%
Numerical Implementation
33%
Damage Evolution
33%
Fluid Dynamics
33%
Failure Surface
33%
Anisotropic Damage
33%
Magnetization Curve
33%
Hysteresis Loop
33%
Damage Surface
33%
Thermodynamic Model
33%
Multiaxial Loading
33%
Finite Element Modeling
33%
Stress Ratio
33%
Magnetic Field
33%
Joints (Structural Components)
33%
Harvester
33%
Selection Function
33%
Regenerator Problem
33%
Rotational
33%
Multiscale Model
33%
Applied Mechanics
22%
Numerical Methods
22%
Finite Element Analysis
22%
S-N Curve
16%
Good Agreement
16%
Stress Space
16%
Measurement Setup
16%
Model Parameter
16%
Interlayer
16%
Regularization
16%
Measured Result
16%
Stress State
16%
Three-Point Bending Test
16%
Loading Direction
16%
Analytical Approach
16%
Tensile Stress σ
16%
Compressive Stress
16%
Continuum Approach
16%
Fit Model
16%
Material Science
Steel Sheet
100%
Electrical Steel
100%
Silver
33%
Titanium
33%
Electrostriction
33%
Mechanical Stress
33%
Plastic Deformation
33%
Magnetic Property
33%
Ultimate Tensile Strength
16%
