Engineering
Fatigue Strength
46%
Railway
45%
High Strength Steel
41%
Steel
35%
Joints (Structural Components)
33%
Welds
27%
Models
25%
Ti-6al-4v
25%
Strength Assessment
24%
Fatigue Design
24%
Estimation
24%
Mechanical Impact
22%
High Frequency
22%
Stress State
20%
Substrates
19%
Base Material
18%
Rolling Process
18%
Additive Manufacturing Process
17%
Additive Manufacturing
17%
Material Model
17%
Test Bench
16%
Quantification
16%
Residual Stress
16%
Test Result
15%
Development
15%
Low Cycle Fatigue
14%
Disk Brake
14%
Surface
13%
Mechanical Fatigue Test
13%
Defects
12%
Microstructure
12%
Application
12%
Fatigue Performance
11%
Creep Model
11%
Stress Concentration
11%
Casting Process
11%
S-N Curve
11%
Process Simulation
11%
Process Condition
11%
Distortion Behavior
11%
Inherent Strain
11%
Rubber Matrix
11%
Alloy
11%
Surface Layer
11%
Particle Number
11%
Drives
11%
Rolling Stock
11%
Porosity
11%
Brake Pad
11%
Rubber Composite
11%
Angular Distortion
11%
Induced Residual Stress
11%
Sensitivity Analysis
11%
Suction Pipe
11%
Experiments
11%
Error
9%
Measurement
9%
Nominal Stress
9%
Design
9%
Temperature
8%
Residual Stress Measurement
8%
Compressive Residual Stress
8%
Optimization
7%
Simulation Model
7%
Roughness
7%
Accuracy
7%
Springs (Components)
7%
Limiting Value
7%
Die Casting
7%
Mechanical Properties
6%
Radius
6%
Applicability
6%
High Cycle Fatigue
6%
Service Life
6%
Determines
6%
Highlight
6%
Depth Profile
6%
Tensile Residual Stress
6%
Tensiles
5%
Creep Behavior
5%
Iron Matrix
5%
Impact Loads
5%
Nodular Iron
5%
Metallographic Analysis
5%
Homogeneous Distribution
5%
Service Load
5%
Lightweight Design
5%
Stress Vector
5%
Exhaust Emission
5%
Derailments
5%
Surface Fatigue
5%
Particulate Matter Emission
5%
Measurement Setup
5%
Mechanical Strain
5%
Show Value
5%
Tensile Direction
5%
Size Range
5%
Fatigue Model
5%
Particle Number Concentration
5%
Fatigue Assessment
5%
Material Science
Materials
100%
Spring Steel
47%
Mechanical Strength
37%
Ti-6Al-4V
35%
Rubber
33%
Particle
30%
Residual Stress
25%
Finite Element Method
24%
Metal
22%
Carbon Steel
16%
Air
16%
Fatigue Behavior
15%
Composite Material
14%
Low-Cycle Fatigue
14%
Tomography
13%
Mechanical Property
13%
Viscoplastic Material
12%
Temperature
11%
Gas Metal Arc Welding
11%
Creep
11%
Gas
11%
Rope
11%
Biodiesel
11%
Stress Intensity
11%
Brakes
11%
Characterization
11%
Ductility
11%
Cast
11%
Fiber
11%
Mechanical Impact
11%
Corrosion
11%
Carbon Dioxide
11%
Laser
11%
Fatigue Crack Growth
11%
Process Simulation
11%
Polyamide
11%
Electronic Circuit
11%
Lubrication
11%
Materials Property
10%
Stainless Steel
9%
Aluminum Alloys
9%
Heat Transfer
7%
Dissimilar Material
7%
Crack Closure
7%
Porosity
7%
Crack Propagation
7%
High Strength Steels
6%
Microstructure
6%
Surface Roughness
5%
Carbide
5%
Tungsten
5%
Material Testing
5%
Die Casting
5%
Titanium Alloys
5%
Surface Analysis
5%
Hardness
5%