Material Science
Aluminum
11%
Aluminum Alloys
14%
Brakes
6%
Carbon Dioxide
6%
Carbon Steel
13%
Cast Aluminum Alloy
19%
Crack Growth
6%
Crack Initiation
15%
Crack Propagation
14%
Elastic Moduli
5%
Electronic Circuit
6%
Energy Density
6%
Fatigue Behavior
21%
Fatigue Crack
5%
Fatigue of Materials
35%
Feedstock
6%
Finite Element Method
17%
Gas Metal Arc Welding
6%
Grain Size
6%
Hardfacing
6%
High Strength Steels
11%
High-Cycle Fatigue
8%
Hot Isostatic Pressing
6%
Low-Cycle Fatigue
11%
Lubrication
6%
Material Testing
6%
Materials Property
22%
Mechanical Impact
13%
Mechanical Strength
100%
Multilayer
6%
Numerical Computational Method
6%
Polyamide
6%
Pore Size
6%
Process Simulation
6%
Properties of Concrete
6%
R-Curves
6%
Residual Stress
32%
Sand Casting
6%
Scanning Electron Microscopy
9%
Stainless Steel
18%
Stress Intensity
8%
Surface Analysis
13%
Surface Roughness
10%
Ti-6Al-4V
20%
Tomography
20%
Viscoplastic Material
7%
Wear Resistance
6%
Wire Arc Additive Manufacturing
25%
Engineering
Additive Manufacturing Process
7%
Angular Distortion
6%
Arm Spacing
10%
Axial Misalignment
6%
Base Material
12%
Casting Process
6%
Characteristic Curve
6%
Defects
9%
Die Casting
6%
Distortion Behavior
6%
Experimental Investigation
6%
Fatigue Assessment
8%
Fatigue Behavior
8%
Fatigue Design
15%
Fatigue Life
8%
Fatigue Strength
55%
Filler Metal
6%
Fillet Weld
15%
Gas Metal Arc Welding
6%
Grinding (Machining)
6%
High Cycle Fatigue
9%
High Strength Steel
38%
Holding Time
6%
Inherent Strain
13%
Joints (Structural Components)
22%
Layer Approach
6%
Material Model
15%
Mechanical Fatigue Test
15%
Mechanical Impact
20%
Metallic Structure
6%
Mild Steel
9%
Notch Fatigue
6%
Numerical Computation
9%
Numerical Model
6%
Numerical Modeling
6%
Peak Temperature
6%
Porosity
8%
Process Condition
6%
Railway
13%
Residual Stress
25%
Rolling Process
11%
Roughness Parameter
8%
Stainless Steel
10%
Strength Assessment
29%
Stress State
7%
Surface Layer
15%
Temperature Range
8%
Test Result
13%
Ti-6al-4v
6%
Welds
32%