Engineering & Materials Science
Fatigue of materials
91%
Welds
59%
Ships
33%
Lasers
32%
High strength steel
24%
Steel
20%
Continuum mechanics
19%
Ferritic stainless steel
18%
Residual stresses
17%
Welding
17%
Crack initiation
14%
Cracks
13%
Defects
13%
Characterization (materials science)
13%
Ocean structures
12%
Stress concentration
12%
Fatigue crack propagation
11%
Finite element method
11%
Microstructure
11%
Ice
11%
Geometry
10%
Buckling
10%
Strain energy
10%
Crack tips
9%
Carbon steel
9%
Thin walled structures
9%
Metals
9%
Shipbuilding
8%
Strain measurement
8%
Correlation methods
8%
Plasticity
8%
Plastics
8%
Crack propagation
7%
X rays
7%
Spatial distribution
7%
Steel construction
7%
Structural design
7%
Subroutines
6%
Conceptual design
6%
Surface roughness
6%
Fatigue damage
6%
Composite materials
6%
Hardness
6%
Mechanical properties
5%
Speckle
5%
Yield stress
5%
Microporosity
5%
Marine engineering
5%
Amorphous alloys
5%
Chemical Compounds
Fatigue Strength
100%
Plate Like Crystal
29%
Residual Stress
26%
Crack Initiation
26%
Fatigue Limit
23%
Strain Energy
16%
Plastic Property
14%
Crack Propagation
14%
Tension
12%
Shape
12%
Grain Size
12%
Microstructure
11%
Shear Strain
11%
Yield Point
10%
Mechanics
9%
Strain
8%
Strength
8%
Body-Centered Cubic Crystal System
8%
Size Effect
8%
Length
7%
Surface Roughness
7%
Surface
6%
Volume
6%
Dimension
6%
Sandblasting
5%
Resistance
5%
Fracture Mechanics
5%
Composite Material
5%
Molecular Cluster
5%
Kinematics
5%
Simulation
5%
Mathematics
Fatigue Strength
39%
Fatigue
26%
Welded Joints
23%
Laser
16%
Steel
14%
High Strength Steel
13%
Influence
11%
Fatigue Damage
11%
Multiaxial Fatigue
11%
Crack Initiation
11%
Residual Stress
10%
Thin Plate
9%
Length Scale
9%
Crack
7%
Fatigue Limit
6%
Crack Growth
6%
Fatigue Crack
6%
Slope
5%
Thin-walled Structures
5%
Size Effect
5%
Plasticity
5%
Notch
5%
