Engineering
Finite Element Modeling
100%
Finite Element Method
99%
Cutting Force
88%
Microstructure
81%
Constitutive Model
62%
Speed Milling
61%
Strain Rate
53%
Aluminum Matrix
53%
High Volume Fraction
48%
Surface Integrity
47%
Residual Stress
46%
Process Variable
44%
Machined Surface
38%
Stainless Steel
36%
High Strength Steel
36%
Cook Model
36%
Polycrystalline Diamond
35%
Shot Peening
33%
Defects
33%
Simulation Result
31%
Surface Quality
30%
Cutting Speed
29%
Cutting Parameter
29%
Feed Rate
29%
Strengthening Mechanism
28%
Diamond Tool
28%
Limitations
28%
Eulerian Method
27%
Material Model
25%
Cut Material
24%
Nonlinear Behavior
22%
Crankshaft
22%
Surface Defect
22%
Alloy Steel
22%
Hardened Steel
22%
Laser Shock Peening
22%
Good Agreement
20%
Finite Element Simulation
19%
Process Simulation
19%
Obtains
18%
Split Hopkinson Pressure Bar
17%
Powerful Tool
17%
End Milling
17%
Two Dimensional
17%
Rate Model
16%
Rake Face
16%
Face Milling
16%
Metal Cutting
16%
Diamond
15%
Chip Load
14%
Material Science
Volume Fraction
61%
Machining
60%
Diamond
59%
Finite Element Method
52%
Strain Rate
49%
Chip Formation
49%
Finite Element Modeling
39%
Aluminum
38%
Matrix Composite
38%
Shot Peening
33%
Fatigue of Materials
27%
Surface Roughness
26%
Mechanical Strength
25%
High Strength Steels
24%
Sapphire
22%
Residual Stress
20%
Wear Resistance
18%
Mechanical Property
17%
Surface Property
16%
Metal Matrix Composite
16%
Carbon Fiber
13%
Particle-Reinforcement
12%
Scanning Electron Microscopy
11%
Dynamic Loads
11%
Maraging Steel
11%
Grain Boundary
11%
Static Loading
11%
Work Hardening
11%
Energy Density
11%
Constitutive Modeling
11%
Phase Structure
11%
Kevlar
11%
Composite Material
11%
Tool Material
11%
High Speed Steel
11%
Carbon Nanotube
11%
Glass Fiber
11%
Wear Property
11%
Silicon Carbide Material
11%
Nanoindentation
11%
Surface (Surface Science)
11%
Titanium Alloy
11%
Fretting Fatigue
11%
Carbide
9%
Grain Size
8%
Plastic Deformation
7%
Silicon Carbide
7%
Surface Defect
7%
Aluminum Alloys
7%
X-Ray Diffraction
7%