Engineering
Fouling
100%
Pure Water
78%
Flat Membrane
76%
Ultrafiltration
60%
Flow Reynolds Number
60%
Recovery Ratio
60%
Cutting Tool Condition
50%
Fibre Loading
50%
Filtration
50%
Fem Model
50%
Rake Angle
50%
Structure Surface
50%
Surface Integrity
50%
Ti-6al-4v
50%
Industrial Applications
50%
Initial Investigation
50%
Fouling Behavior
50%
Electrostatic Force
50%
Experimental Investigation
50%
Energy Engineering
50%
Concentration Polarization
50%
Residual Stress
50%
Cooling System
50%
Sensor Signal
50%
Nanofiltration
50%
Condition Monitoring
50%
Fiber Content
50%
Learning System
50%
Manufacturing Process
34%
Minimum Quantity Lubrication
33%
Fracture Criterion
25%
Ductile Fracture
25%
Design Tool
25%
Experimental Work
25%
Material Model
25%
Machining Titanium Alloy
25%
Lagrangian Formulation
25%
Particle Collision
25%
Sensor System
25%
Structural Assessment
25%
Size Analysis
25%
Porosity
25%
Random Forest
25%
Convolutional Neural Network
25%
Thermal Load
25%
Focused Ion Beam
25%
Microscale
25%
Latent Heat
25%
Incident Radiation
25%
Starting Point
25%
Concrete Structure
20%
Bending Strength
20%
Health Monitoring
20%
Surface Quality
16%
Cutting Fluid
16%
End Milling
16%
Environmental Damage
10%
Operational Cost
10%
Computer Simulation
10%
Compression Strength
10%
Compressive Strength
10%
Sensing Performance
10%
Hot Strength
8%
Penetrability
8%
Machining Area
8%
High Temperature Applications
8%
Polarization Factor
8%
Application Performance
8%
Petroleum Industry
8%
Surface Defect
8%
Atomisation
8%
Hot Hardness
8%
Electric Power Utilization
8%
Rapid Tool Wear
8%
Critical Damage
8%
Artificial Neural Network
8%
Performance Improvement
8%
Mass Transfer
8%
Cutting Speed
8%
Facing Material
8%
Feature Extraction
8%
Induced Damage
8%
Reynolds' Number
8%
Conventional Method
8%
Dimensional Tolerance
8%
Hydrodynamics
8%
Induced Stress
8%
Nanofiltration Membrane
8%
Computational Fluid Dynamics
8%
Machined Surface
8%
Manufacturing Cost
8%
Support Vector Machine
8%
Mass Balance
8%
Three Dimensional Printing
8%
Fusion Energy
8%
Molecular Weight Cut-off
8%
Mean Absolute Error
8%
Resource Consumption
8%
Bending Moment
8%
Material Science
Machining
100%
Inconel 718
50%
Carbon Fiber
50%
Lubrication
50%
Composite Membrane
50%
Cutting Tool
50%
Ti-6Al-4V
50%
Titanium
50%
Percolation
50%
Flexural Strength
25%
Finite Element Modeling
20%
Materials Synthesis
16%
Surface (Surface Science)
16%
Compressive Strength
12%
Physical Property
12%
Cutting Fluid
11%
Surface Property
11%
Ductile Fracture
10%
Tool Design
10%
Titanium Alloy
10%
Machinability
10%
Wettability
5%
Gas Oil
5%
Surface Defect
5%
Chemical Engineering
Nanofiltration
100%
Fouling
75%
Boron Nitride
50%
Film
50%
Nanotube
50%
Carbon Fiber
50%
Polyamide
33%
Humic Acid
16%
Poly(ether-Sulfone) Polymer
10%
Ultrafiltration
10%
Mass Transfer
10%
Carbon Nanotube
8%
Polymerization
8%