Engineering
Fatigue Strength
100%
High Strength Steel
89%
Joints (Structural Components)
75%
Residual Stress
64%
Welds
61%
Fatigue Design
55%
Mechanical Impact
50%
Railway
50%
Rolling Process
40%
Material Model
38%
Strength Assessment
30%
Stress State
26%
Porosity
25%
Gas Metal Arc Welding
25%
Strain Tensor
25%
Axis System
25%
Characteristic Curve
25%
Inherent Strain
25%
Die Casting
25%
Rubber Matrix
25%
Surface Layer
25%
Base Material
25%
Distortion Behavior
25%
Defects
25%
Process Condition
25%
Grinding (Machining)
25%
Induced Residual Stress
25%
Local Approach
25%
Process Simulation
25%
Contact Simulation
25%
Numerical Modeling
25%
Rubber Composite
25%
Limiting Value
25%
Angular Distortion
25%
Casting Process
25%
Ti-6al-4v
25%
Suction Pipe
25%
Fillet Weld
25%
Test Result
24%
Microstructure
20%
S-N Curve
20%
Law Creep
18%
Mechanical Fatigue Test
18%
Residual Stress Measurement
18%
Compressive Residual Stress
18%
Simulation Model
17%
Springs (Components)
16%
High Cycle Fatigue
15%
Applicability
15%
Service Life
14%
Tensile Residual Stress
13%
Process Parameter
13%
Depth Profile
13%
Show Value
12%
Arm Spacing
12%
Lightweight Design
12%
Iron Matrix
12%
Nodular Iron
12%
Impact Loads
12%
Derailments
12%
Tensile Direction
12%
Metallographic Analysis
12%
Stress Vector
12%
Mechanical Strain
12%
Homogeneous Distribution
12%
Fatigue Life
12%
Simulation Software
12%
Stainless Steel Wire
12%
Rectangular Element
12%
Substrate Plate
12%
Single Error
12%
Local Load
12%
Fatigue Assessment
12%
Fatigue Model
12%
Service Load
12%
Mass Number
12%
Surface Fatigue
12%
Fatigue Property
12%
Yield Strength
11%
Structural Detail
10%
Test Series
10%
Fatigue Performance
10%
Surface Topography
10%
Mild Steel
10%
Nominal Stress
10%
Fatigue Resistance
10%
Tensiles
9%
Tetrahedral Element
8%
Stress Intensity
8%
Adaptive Remeshing
8%
Heat Affected Zone
8%
Equivalent Transformation
8%
Tensile Specimen
8%
Bead Geometry
8%
Strain Hardening
8%
Numerical Computation
8%
Effective Area
8%
Computational Time
8%
Heat Source
8%
Hardening Rule
8%
Material Science
Wire Arc Additive Manufacturing
90%
Residual Stress
87%
Mechanical Strength
83%
Ti-6Al-4V
75%
Finite Element Method
75%
Fatigue Behavior
50%
Materials Property
44%
Surface Analysis
39%
Carbon Steel
37%
Tomography
37%
Low-Cycle Fatigue
35%
Mechanical Property
30%
Stress Intensity
29%
Viscoplastic Material
27%
Polyamide
25%
Corrosion
25%
Material Testing
25%
Process Simulation
25%
Finite Element Modeling
25%
Multilayer
25%
Lubrication
25%
Feedstock
25%
Mechanical Impact
25%
Brakes
25%
Carbon Dioxide
25%
Biodiesel
25%
Electronic Circuit
25%
Stainless Steel
23%
Aluminum Alloys
20%
High Strength Steels
14%
Surface Roughness
13%
Stress Measurement
13%
Titanium Alloys
13%
Composite Material
12%
Nodular Iron
12%
Impact Loads
12%
Die Casting
12%
Elastic Moduli
12%
Surface Topography
12%
Strain Measurement
12%
Rubber Material
12%
Radiographic Testing
12%
Delamination
12%
Scanning Electron Microscopy
11%
Crack Initiation
9%
Fatigue of Materials
8%
Cast Aluminum Alloy
8%
Energy-Dispersive X-Ray Spectroscopy
8%
Advanced Material
8%
Low Carbon Steel
8%
Surface Fatigue
8%
Heat Treatment
6%
Machining
6%
Yield Stress
6%
Fatigue Crack
6%
Alternative Fuel
6%
Materials Design
6%
Corrosion Resistance
6%
High-Cycle Fatigue
6%
Three Dimensional Printing
5%
Microstructural Analysis
5%
Work Hardening
5%
Viscoplastic Behavior
5%