Engineering & Materials Science
Lasers
100%
Repair
76%
Orbits
65%
Carbon fiber reinforced plastics
61%
Wear resistance
52%
Fibers
51%
Neodymium lasers
49%
Metals
47%
Glues
46%
Microstructural evolution
46%
Adhesives
43%
Thermodynamics
40%
3D printers
36%
Carbon fibers
35%
Diodes
34%
Aerodynamics
29%
Reentry
29%
Composite materials
28%
Plastics
27%
Steel
21%
Costs
20%
Gases
19%
Benchmarking
19%
Joining
18%
Launch vehicles
17%
High power lasers
17%
Fiber lasers
16%
Single mode fibers
16%
Thermal load
15%
Powders
15%
Welding
15%
Aerospace industry
13%
Experiments
13%
Strength of materials
12%
Life cycle
12%
Topology
12%
Microstructure
12%
Mechanical properties
12%
Automotive industry
12%
Environmental impact
11%
Cleaning
11%
Geometry
11%
Newtonian flow
9%
Heating
8%
Riveting
8%
Spacecraft
8%
Plastic parts
8%
Economics
7%
Nondestructive examination
7%
Earth (planet)
7%
Mathematics
Prediction
60%
Orbit
56%
Reentry
53%
Thermodynamics
52%
Aerodynamics
45%
Gas
43%
Atmosphere
42%
Reduced Order Model
36%
Design
34%
Configuration
31%
High Speed
30%
Modeling
30%
Shock
24%
Likely
24%
Heating
22%
Performance
22%
Costs
15%
Uncertainty
15%
Direct Simulation Monte Carlo
15%
Non-equilibrium
15%
Optimization
14%
Fidelity
11%
Computational Techniques
11%
Simulation Methods
10%
Slip
10%
Heat Transfer
9%
Monte Carlo method
9%
Model
9%
Interaction
8%
Analogy
8%
Continuum
8%
Characterization
6%
Context
5%
