Engineering & Materials Science
Monorails
100%
Peat
93%
Railroad tracks
46%
Glass fiber reinforced plastics
43%
Crashworthiness
40%
Spot welding
39%
Infrared imaging
38%
Fatigue of materials
37%
Crushing
36%
Fatigue damage
34%
Stress analysis
32%
Diamonds
32%
Thermal stress
32%
Finite element method
31%
Bending strength
31%
Drying
30%
Fiber reinforced plastics
30%
Delamination
29%
Heat treatment
28%
Stress concentration
27%
Rain
26%
Ships
26%
Repair
26%
Wheels
25%
Welds
25%
Debonding
24%
Torque
23%
Degradation
22%
Stiffness
22%
Friction
22%
Welding
21%
Steel
17%
Computer simulation
17%
Aircraft
17%
Fires
16%
Energy absorption
15%
Aluminum alloys
15%
Cracks
14%
Urban transportation
14%
Soils
12%
Hulls (ship)
12%
Oxygen supply
11%
Stars
11%
Laminates
9%
Scanning electron microscopy
8%
Pulse amplitude modulation
8%
Failure modes
8%
Taguchi methods
7%
Trajectories
7%
Automobiles
7%
Physics & Astronomy
peat
54%
smoldering
53%
glass fiber reinforced plastics
50%
raindrops
48%
reinforced plastics
45%
rain
41%
flexural strength
36%
integrity
34%
residual strength
34%
thermal stresses
34%
foams
31%
stress distribution
30%
numerical analysis
29%
vessels
29%
stiffness
28%
heat treatment
26%
retarding
24%
degradation
24%
damage
22%
evaluation
20%
fibers
18%
predictions
17%
simulation
14%
curves
14%
welding
12%
aircraft
11%
buckling
11%
bolted joints
11%
aluminum alloys
9%
fatigue life
8%
mechanical properties
8%
flanges
8%
hubs
8%
thick walls
7%
carbon steels
7%
endurance
7%
sensitivity analysis
6%
Chemical Compounds
Fatigue Strength
53%
Aluminium Alloy
44%
Peat
42%
Torque
40%
Bending Strength
39%
Reinforced Plastic
39%
Delamination
35%
Collision
32%
Diamond
30%
Heat Treatment
27%
Permeability
25%
Plate Like Crystal
25%
Nylon
23%
Base Material
20%
Strength
15%
Dimension
15%
Surface
14%
Drop
13%
Soil
13%
Error
12%
Specific Strength
11%
Strain
11%
Application
10%
Velocity
9%
Fire
8%
Metal
7%
Residual Stress
7%
Heat
5%
Glass
5%
Composite Material
5%
Simulation
5%
Energy
5%
