Engineering & Materials Science
Fatigue crack propagation
100%
Fatigue of materials
64%
Welds
62%
Cracks
60%
Welding
45%
Ships
44%
Buckling
43%
Computer simulation
39%
Stress intensity factors
35%
Mooring
35%
Plastics
34%
Finite element method
32%
Defects
28%
Steel
23%
Lasers
23%
Beams and girders
21%
Residual stresses
20%
Wear of materials
20%
Crack tips
18%
Stress concentration
17%
Crack propagation
17%
Crashworthiness
16%
Electric arc welding
16%
Strain rate
15%
Fracture toughness
15%
Energy absorption
14%
Fracture mechanics
14%
Compressive stress
13%
Concrete pavements
13%
Brittle fracture
13%
Strain hardening
12%
Plasticity
12%
Rails
11%
Axial compression
11%
Crack closure
11%
Water
11%
Skin
10%
Structural integrity
10%
Dynamic response
10%
Structural members
9%
Pipe
9%
Crack initiation
8%
Aircraft
8%
Hot Temperature
8%
Containers
8%
Thermal effects
8%
Gas welding
8%
Ocean structures
7%
Ultrasonic propagation
7%
Water levels
7%
Water waves
7%
Genetic algorithms
7%
Plastic deformation
6%
Yield stress
6%
Ultrasonic testing
6%
Flanges
6%
Membranes
6%
Fatigue damage
5%
Acoustic waves
5%
Wind turbines
5%
Structural design
5%
Engines
5%
Cyclic loads
5%
Hot rolled steel
5%
Tides
5%
Ship models
5%
Stiffness
5%
Metals
5%
Liquid sloshing
5%
Airports
5%
Heating
5%
Hydrostatic pressure
5%
Earth & Environmental Sciences
crack
18%
fatigue
17%
brittle fracture
7%
container ship
6%
floating structure
6%
crack propagation
6%
fracture toughness
5%
heuristics
5%