Engineering
Welds
100%
Steel
75%
Fatigue Strength
63%
Joints (Structural Components)
63%
Tensiles
56%
Fatigue Crack Propagation
54%
Fatigue Crack
50%
Residual Stress
48%
Shear Failure
48%
Failure Mode
48%
Shear Strength
48%
Tensile Test
39%
Fatigue Limit
31%
Computer Simulation
26%
Welding
25%
Microcracks
24%
Coating
24%
Large Strain
24%
Cyclic Loading
24%
Strain Relation
24%
Strength Steel Sheet
23%
Bond Strength
22%
Measurement
20%
Loading History
19%
Stress-Strain Curve
19%
Cyclic Stress
19%
Mechanisms
17%
Tensile Residual Stress
16%
Strength Steel
16%
Yield Stress
15%
Stress Condition
15%
Stress History
15%
Frequency Component
13%
Advanced High Strength Steel
13%
Failure (Mechanical)
13%
Performance
13%
Characteristics
12%
Amplitudes
12%
Density
12%
Circumferential
12%
Low Strength
11%
Residual Stress Distribution
10%
Strain Curve
9%
Test Method
9%
Shipbuilding
9%
Joint Strength
9%
Increase Strength
9%
Fatigue Limit Stress
8%
Crack
8%
Heat Affected Zone
8%
Material Science
Steel Sheet
63%
Thin Sheet
60%
Mechanical Strength
59%
Weld Metal
53%
Spring Steel
27%
Coating
24%
Microcracks
24%
Welded Structure
24%
Strain
24%
Welding
19%
Spot Welding
15%
Yield Stress
13%
Ferrite
8%
Crack
8%
Metallurgical Structure
6%
Expansion
5%
Hardness
5%
Physics
Microcracks
29%
Ripples
28%
Fatigue Test
26%
Coronas
24%
Metal Surfaces
20%
Welding
20%
Stress Concentration
18%
Value
12%
Strain
12%
Irregularities
12%
Initiation
12%
Amplitudes
12%
Joint
11%
Ratios
10%
Method in Fracture Mechanics
9%
Cracks
8%
Fatigue Crack
8%
Crack Growth
8%
Hysteresis
7%
Validity
7%
Behavior
7%
Evaluation
7%
Fatigue Damage
6%
Plastic Deformation
6%
Impact
6%
Crack Initiation
6%
Temperature
5%
Cooling
5%
Expansion
5%
Hardness
5%
Heat Affected Zone
5%
High Strength
5%