Engineering & Materials Science
Structural health monitoring
100%
3D printers
75%
Lasers
50%
Laser cladding
41%
Fatigue of materials
41%
Powders
35%
Cracks
34%
Hyperspectral imaging
21%
Temperature
19%
Metals
18%
Monitoring
17%
Feedback control
17%
Austenitic stainless steel
16%
Wave propagation
16%
Temperature control
15%
Ducts
14%
Controllers
14%
Intelligent structures
14%
Control systems
13%
Temperature measurement
13%
Characterization (materials science)
12%
Cameras
12%
Computer simulation
12%
Geometry
11%
Shock waves
10%
Fatigue crack propagation
10%
Real time control
9%
Gases
9%
Feedback
9%
Powder metals
9%
Residual stresses
9%
Computer hardware
8%
Structural integrity
8%
Crack propagation
7%
Repair
7%
Optical fibers
7%
Pressure sensors
7%
Capillarity
7%
Crack initiation
7%
Flow rate
6%
Nozzles
6%
Visualization
6%
Defects
6%
Fluids
6%
Infrared radiation
6%
Drilling
6%
Selective laser melting
6%
Liquids
6%
Surface measurement
6%
High speed cameras
5%
Physics & Astronomy
structural health monitoring
43%
manufacturing
25%
lasers
22%
cracks
17%
elastic waves
16%
stainless steels
15%
ducts
14%
residual stress
13%
energy
13%
thin walls
12%
lugs
12%
wave propagation
12%
evaluation
10%
temperature measurement
9%
metal powder
9%
cameras
9%
temperature
8%
crack initiation
8%
drilling
8%
melting
8%
metals
8%
crack propagation
7%
spatial resolution
7%
hardware
6%
steels
6%
roughness
6%
strain distribution
5%
high resolution
5%
optical fibers
5%
high speed cameras
5%
shock waves
5%
propagation
5%
tubes
5%
damage
5%
smart structures
5%
pressure measurement
5%
printing
5%
Chemistry
Additive
37%
Pressure
22%
Pressure Sensor
21%
Energy
19%
Laser Cladding
18%
Simulation
17%
Residual Stress
14%
Flow
14%
Wave
13%
Pyrometer
12%
Deposition Process
11%
Crack Initiation
11%
Shock Wave
10%
Crack Propagation
10%
Strain
10%
Shape
8%
Metal
8%
Application
7%
Mechanical Fatigue
6%
Velocity
6%
Displacement
5%
Chaos (Dynamical)
5%
Melting
5%
Wavelength
5%
Emissivity
5%
