Keyphrases
Waviness
100%
Femtosecond Laser Direct Writing
100%
Extreme Learning Machine
100%
Kerf
100%
Pulsed Laser Cutting
100%
Non-oriented Silicon Steel
100%
Heat Affected Zone
100%
Microstructural Characteristics
100%
Scanning Speed
100%
Electrical Characteristics
100%
Composite Thin Film
100%
Droplet Drying
100%
Ambient Temperature
100%
Particle Formation
100%
Laser Power
86%
Microstructure
66%
Temperature Gradient
66%
Solid Particles
66%
Particle Structure
66%
Silicon Steel
40%
Three-parameter
40%
Conductive Composites
33%
Composite Solution
33%
Copper Precursor
33%
Copper(II) Nitrate Trihydrate
33%
Glycidyl Ether
33%
Copper Sintering
33%
Castable
33%
Composite Microstructure
33%
Electrical Cost
33%
Femtosecond Laser Irradiation
33%
Cost-effectiveness
33%
Bisphenol A
33%
Electrical Conductivity
33%
Ablation
33%
Electrical Resistance
33%
Two-photon Absorption
33%
Surface Morphology
33%
Excellent Electrical Conductivity
33%
Composite Materials
33%
Copper Ions
33%
Low Speed
33%
Heat Accumulation
33%
Photopatterning
33%
Copper Particles
33%
Copper Chloride
33%
Highly Conductive
33%
Vapor Temperature
33%
Drying Process
33%
Simulation Model
33%
Hollow Particles
33%
Solute Precipitation
33%
Hollow Morphology
33%
Concentration Gradient
33%
Solute Concentration
33%
Sodium Chloride
33%
Precipitation Particles
33%
Volume of Fluid Method
33%
Size Change
33%
Simulative
33%
Liquid Droplet
33%
Aqueous Droplet
33%
Vapor Concentration
33%
Two-particle
33%
Gradient Change
33%
High Variety
20%
High Flux Density
20%
Motor Manufacturing
20%
Soft Magnetic Materials
20%
Model-based Testing
20%
Cutting Quality
20%
Low Core Loss
20%
Auxiliary Model
20%
Cutting Speed
20%
Laser Cut Quality
20%
Thin-film Silicon
20%
Regression Analysis
20%
Training Model
20%
Artificial Neural Network
20%
Random Forest Method
20%
Low Volume
20%
Relative Significance
20%
Pulse Repetition Frequency
20%
Four-level
20%
Prediction Accuracy
20%
Cost-effective Tool
20%
Experimental Parameters
20%
Engineering
Multiphoton Lithography
100%
Femtosecond Laser
100%
Extreme Learning Machine
100%
Thin-Film Composite
100%
Heat Affected Zone
100%
Electrical Steel
100%
Pulsed Laser
100%
Thermal Gradient
100%
Scanning Speed
75%
Laser Power
70%
Line Width
50%
Solid Particle
50%
Simulation Model
50%
Liquid Droplet
50%
Solute Concentration
50%
Surrounding Air
50%
Volume of Fluid Method
50%
Electrical Conductivity
50%
Surface Morphology
25%
Polymerization
25%
Conductive
25%
Bisphenol
25%
Laser Irradiation
25%
Thin Films
25%
Sintering
25%
Composite Material
25%
Pulse Repetition Rate
20%
Cutting Speed
20%
Core Loss
20%
Experimental Result
20%
Relative Significance
20%
Accurate Prediction
20%
Experimental Parameter
20%
Random Forest
20%
Artificial Neural Network Model
20%
Flux Density
20%