Engineering
Welds
100%
Ships
79%
Stiffened Panel
47%
Design
40%
Fatigue Damage
30%
Structural Stress
27%
Lightweight Design
27%
Hybrid
23%
Thickness
23%
Optimization
23%
Design Constraint
23%
Fatigue Strength
23%
Structural Behavior
23%
Reduction
23%
Excitation Force
23%
Density
23%
Fatigue Crack
23%
High Strength Steel
23%
Mechanical Impact
23%
Residual Stress
23%
Design Load
23%
Mechanical Property
23%
Deck
19%
Models
19%
Finite Element Analysis
19%
Peak Load
19%
Defects
17%
Fatigue Life Prediction
16%
Combined Effect
16%
Material Response
16%
Strain Energy Density
16%
Experiments
11%
Stress Concentration
11%
Misalignment
11%
Fatigue Design
11%
Highlight
11%
Design Solution
11%
Fields
11%
Cutting
11%
Continuity Condition
11%
Structure Interaction
11%
Two Dimensional
11%
Heave Motion
11%
Wavelength
11%
Steepness
11%
Geometric Parameter
11%
Fatigue Performance
11%
Interlayer
11%
Geometric Nonlinearity
11%
Finite Element Method
10%
Crack Initiation
10%
Full Scale
7%
Welding
7%
Local Stress
7%
Error
7%
Small Amplitude
7%
Axial Tension
7%
Applicability
7%
Maximum Stress
7%
Stress Field
7%
Fatigue Resistance
7%
Constitutive Model
7%
Plastic Response
7%
Crack Propagation
7%
Plastic Zone
7%
Measurement
6%
Measurement Data
5%
Material Science
Welded Joint
23%
Glass
23%
Mechanical Strength
23%
Characterization
23%
Laser
23%
High Strength Steels
23%
Fatigue Crack
10%
Finite Element Modeling
6%