Keyphrases
Magneto-mechanical
100%
Energy Harvesting System
83%
Laser Cladding
50%
Fatigue Life
50%
Fatigue Behavior
50%
Structure Optimization
50%
Magnetic Properties
50%
Finite Element Method
50%
Stability Constraints
50%
Elastic Model
50%
Experimental Verification
50%
Plastic Deformation
50%
Magnetoelastic
50%
Device-independent
50%
Mechanical Energy Harvester
50%
Shunt
50%
Protector
50%
Impact Force
50%
Hip Protector
50%
Biomechanical Study
50%
Fracture Threshold
50%
Round Steel Bar
50%
Construction Steel
50%
Modeling Verification
50%
Laser Clad
50%
Railway Track
33%
Energy Harvesting
33%
Numerical Methods
33%
Inconel 625 (IN625)
33%
Post-weld Heat Treatment
33%
Material Model
33%
Stellite 21
33%
Material Cost
25%
Modelling Aspects
25%
Imperfection Sensitivity
25%
Material Imperfection
25%
One-state Reality
25%
Cost Sensitivity
25%
Electric Steel
25%
Multi-criteria Optimization
25%
Low Load
16%
Thermal Gradient
16%
Torsional Fatigue
16%
Thermal Expansion
16%
Applied Load
16%
Magnetic Field Strength
16%
Number of Cycles
16%
Induced Stress
16%
Fatigue Test
16%
Welding Method
16%
Engineering
Energy Harvesting
100%
Energy Engineering
62%
Material Model
50%
Plastic Deformation
50%
Elastic Model
50%
Harvester
50%
Mechanical Energy
50%
Optimisation Problem
50%
Material Cost
50%
Steel Construction
50%
State Variable
50%
Finite Element Analysis
50%
Fatigue Life
50%
Fatigue Behavior
50%
Laser Cladding
50%
Steel Bar
50%
Heat Treatment
33%
Magnetic Flux Density
25%
Induced Voltage
25%
Test Sample
25%
Experimental Result
25%
Dynamic Loads
25%
Finite Element Formulation
25%
Rail Track
25%
Magnetic Field Strength
25%
Thermal Gradient
16%
Dilution
16%
Service Life
16%
External Load
16%
Metal Matrix Composite
16%
Tensile Residual Stress
16%
Stress Level
16%
Layer Coating
16%
Induced Stress
16%
Composite Coating
16%
Mechanical Fatigue Test
16%
Applied Load
16%
Point Bending
16%
Fatigue Strength
16%
Structural Steel
16%
Conversion Process
12%
Power Density
12%
Magnetization Curve
12%
Energy Conversion
12%
Tall Buildings
12%
Test Material
12%
Mechanical Stress
12%
Network Model
12%
Flux Density
12%
Energy Requirement
12%