Engineering
Finite Element Method
100%
Casting Process
93%
Die Casting
78%
Pressure Die
70%
Boundary Element Method
57%
Dimensional Analysis
52%
Transients
43%
Control Volume
43%
Solidification Modeling
40%
Scale Effect
39%
Cooling Channel
28%
Full Scale
26%
Leak Rate
25%
Metal Forming
24%
Continuum Mechanics
24%
Thermal Model
23%
Cohesive Zone Model
23%
Finite Element Modeling
22%
Roll Speed
21%
Strip Casting
21%
Good Agreement
20%
Thermally Sprayed Coating
19%
Similarities
18%
Surface Quality
18%
Microstructure
17%
Semisolid
17%
Boundary Condition
15%
Thermal Behavior
15%
Singularities
14%
Experimental Result
14%
Applicability
13%
Numerical Evaluation
13%
Simplex
13%
Heat Extraction
13%
Railway Wheel
13%
Thermal Resistance
13%
Cast Magnesium
12%
Solidification Problem
12%
Conjugate Gradient Method
12%
Thermocouple
12%
Element Model
12%
Heat Transfer Coefficient
12%
Computer Simulation
12%
Experimental Investigation
11%
Physical System
11%
Fracture Mechanics
11%
Solution Method
11%
Finite Element Simulation
11%
Impact Loads
11%
Size Effect
11%
Material Science
Magnesium Alloy
45%
Solidification
38%
Die Casting
34%
Finite Element Modeling
31%
Metal Forming
22%
Extended Finite Element Method
18%
Metal Forming Process
18%
Capacitance
15%
Magnesium
13%
Mechanical Property
13%
Fatigue Crack Growth
13%
Debonding
11%
Impact Loads
11%
Magnesium Alloys
10%
Cohesive Zone Model
9%
Residual Stress
9%
Hot Isostatic Pressing
9%
Cellular Material
9%
Work Hardening
9%
Fluid Mechanics
9%
Mechanical Testing
9%
Strain Rate
9%
Thermal Conductivity
9%
Molten Material
8%
Boundary Element Method
8%
Copper Alloys
7%
Composite Material
6%
Continuum Mechanics
6%
Contact Condition
6%
Fatigue of Materials
6%
Confocal Microscopy
6%
Surface Property
5%
Tool Steel
5%
Crack Growth
5%
High-Cycle Fatigue
5%
Low-Cycle Fatigue
5%