Engineering & Materials Science
Solid oxide fuel cells (SOFC)
100%
Carbon fiber reinforced plastics
72%
Laser beam effects
53%
Fiber lasers
53%
Crystal orientation
48%
Lasers
44%
Oxygen
38%
Nucleation
35%
Microstructure
35%
Anodes
31%
Angular momentum
31%
Degradation
29%
Carbon fibers
28%
Dislocations (crystals)
26%
Single mode fibers
25%
Chemical potential
25%
Materials properties
24%
Electrolytes
24%
Durability
24%
Hot Temperature
23%
Polycrystals
22%
Grain growth
22%
Dynamic recrystallization
21%
Composite materials
20%
Galvanometers
20%
Crystals
20%
Heat conduction
18%
Crystal lattices
18%
Cermets
17%
Creep
17%
Electrodes
17%
Heat affected zone
16%
Plasticity
16%
Defects
16%
Phase transitions
15%
Sintering
15%
Cathodes
14%
Laser applications
14%
Plastics
14%
Temperature
13%
Debris
13%
Reinforced plastics
11%
Electric Conductivity
11%
Phase separation
11%
Scanning
11%
Zirconium
11%
Phase boundaries
11%
Finite element method
11%
Stress measurement
10%
Plastic laminates
10%
Mathematics
Solid Oxide Fuel Cell
72%
Fiber Laser
52%
Carbon Fiber
50%
Phase Field
39%
Single-mode Fiber
34%
Microstructure
32%
Plastics
32%
Oxygen
30%
Laser
28%
Electrode
28%
Composite Plates
26%
Irradiation
25%
Mechanical Behavior
24%
Inverse Heat Conduction
15%
Recrystallization
15%
Sintering
13%
Polycrystal
13%
Crack Propagation
13%
Simulation
12%
Phase Separation
12%
Nucleation
11%
Oxides
11%
High Power
10%
Nucleus
10%
Metals
10%
Polymers
9%
Numerical Simulation
9%
Defects
8%
Laminated Plates
8%
Periodicity
8%
Time-varying
8%
Electrical Conductivity
8%
Substitution
8%
Learning
8%
Homogenization
7%
Scanning
7%
Alumina
7%
Degradation
7%
Composite Materials
7%
Laminates
7%
Damage
7%
Grain Boundary
6%
Reflectivity
6%
Evaluation
6%
Evaluate
6%
Testing
6%
Copper
6%
Model
5%
Well-defined
5%
Microcracks
5%
Physics & Astronomy
laser cutting
58%
carbon fiber reinforced plastics
53%
fiber lasers
35%
carbon fibers
24%
irradiation
22%
nucleation
22%
simulation
21%
infrared lasers
19%
galvanometers
17%
nuclei
17%
conservation laws
16%
crystals
14%
solid oxide fuel cells
13%
debris
13%
plastics
13%
lasers
13%
grooves
12%
reinforced plastics
12%
damage
11%
laser applications
10%
phase transformations
10%
polymer blends
10%
composite materials
10%
heat affected zone
9%
learning
9%
scanning
9%
crystal dislocations
9%
conductive heat transfer
8%
anodes
7%
finite element method
7%
cracks
6%
evaluation
6%
molecular dynamics
6%
polycrystals
6%
high strength
6%
radiant flux density
6%
thermodynamics
6%
plastic properties
5%
metals
5%
microstructure
5%
tensile strength
5%
