Engineering
Analytical Model
12%
Atomisation
36%
Based Cutting Fluid
37%
Bulk Metallic Glass
11%
Carbon Nanotube
23%
Chip Load
14%
Chip Thickness
17%
Computer Simulation
10%
Cutting Condition
11%
Cutting Edge
15%
Cutting Fluid
15%
Cutting Force
100%
Dielectrics
14%
Edge Radius
15%
Electric Discharge Machining
15%
Electrodischarge Machining
11%
End Milling
24%
Experimental Investigation
24%
Experimental Result
23%
Face Milling
45%
Finite Element Method
24%
Force Model
34%
Force Signal
15%
Force System
10%
Good Agreement
24%
Machine Tool
40%
Machined Surface
11%
Machining Force
21%
Machining Simulation
14%
Manufacturing Process
28%
Material Removal
11%
Mechanistic Model
28%
Mechanistic Modeling
14%
Mesoscale
16%
Metalworking Fluid
39%
Micro Machining
11%
Microfiltration
18%
Microscale
26%
Microstructure
37%
Minimum Chip Thickness
12%
Model Parameter
14%
Model Prediction
14%
Nodular Iron
21%
Process Parameter
13%
Runout
11%
Speed Machining
13%
Spindle Speed
22%
Stability Analysis
12%
Tapping (Threads)
16%
Ti-6al-4v
11%
Keyphrases
Atomization
35%
Carbon Nanotubes
20%
Chip Load
15%
Chip Thickness
12%
Chisel Edge
12%
Cutter
13%
Cutting Fluid
46%
Cutting Force
74%
Cutting Process
25%
Cutting Tool
12%
Ductile Iron
18%
Electrical Discharge Machining
16%
End Milling
14%
Face Milling
42%
Feed Rate
13%
Finite Element
16%
Flux Decline
12%
Hole Quality
12%
Machinability
25%
Machine Tool
24%
Machined Surface
14%
Machining Force
19%
Machining Process
21%
Machining Simulation
16%
Machining System
13%
Manufacturing Process
12%
Material Removal
11%
Mechanistic Approach
17%
Mechanistic Model
27%
Metalworking Fluids
47%
Micro-end Milling
21%
Micro-milling
12%
Microfiltration
18%
Micromachining
13%
Microstructure
33%
Model Prediction
15%
Model-driven Development
14%
Modeling Approach
15%
Ploughing
19%
Process Faults
21%
Semi-synthetic
12%
Spindle
12%
Spray System
26%
Surface Roughness
14%
Ti-6Al-4V (Ti64)
12%
Tool Geometry
12%
Tool Wear
14%
Turning Process
15%
Variable Speed
17%
Workpiece Material
13%