Engineering & Materials Science
Carbon nanofibers
100%
3D printers
84%
Electroactive polymer actuators
70%
Acids
59%
Fused Deposition Modeling
55%
Actuators
49%
Characterization (materials science)
38%
Sensors
38%
Polyurethanes
31%
Pneumatic actuators
31%
Extrusion
31%
Functional materials
29%
Thermoplastics
29%
Strain gages
25%
Printing
22%
Pneumatics
20%
Thin films
19%
Printers (computer)
18%
Fabrication
18%
Temperature
17%
Electric potential
16%
Intelligent materials
13%
Computer hardware
12%
Permittivity
11%
Extruders
11%
Polymers
10%
Calibration
10%
Surface topography
10%
Electric properties
9%
Piezoelectric materials
9%
Intelligent structures
8%
Biocompatibility
8%
Tensile properties
8%
Electrodes
8%
Elongation
7%
Rapid prototyping
7%
Film thickness
7%
Fillers
7%
Pressure sensors
7%
Crystalline materials
7%
Phase transitions
7%
Physical properties
6%
Dielectric films
6%
Robotics
6%
Copper
5%
Capacitors
5%
Bellows
5%
Chemical Compounds
Additive
60%
Carbon Nanofibre
52%
Filament
48%
Dielectric Material
37%
Robotics
34%
Extrusion
30%
Casting
25%
Strain
24%
Pressure
24%
Vinylidene Fluoride
23%
Poly(vinylidene)
23%
Piezoelectric Constant
22%
Bellow
22%
Voltage
15%
Carbon Atom
14%
Dielectric Constant
10%
Time
10%
Smart Material
9%
Displacement
8%
Electrical Property
8%
Weight
7%
Breakdown Voltage
6%
Dielectric Film
6%
Analytical Calibration
6%
Modification
5%
Error
5%
Physics & Astronomy
actuators
38%
acids
37%
manufacturing
33%
electroactive polymers
31%
carbon
28%
pneumatics
25%
characterization
23%
filaments
22%
functionals
19%
sensors
18%
cycles
15%
printing
15%
hardware
15%
electrical resistivity
14%
performance
11%
printers
9%
screws
8%
tensile properties
7%
actuation
7%
topography
6%
elongation
6%
temperature
6%