Engineering & Materials Science
Self-healing materials
100%
Robotics
74%
Polymers
57%
3D printers
54%
Elastomers
43%
Grippers
41%
Cycloaddition
40%
Selective laser sintering
27%
Thermosets
24%
Temperature
23%
Actuators
22%
Robots
21%
Heating
18%
Recovery
16%
Covalent bonds
16%
Tuning
15%
Stiffness
15%
Lasers
15%
Mechanical properties
14%
Magnetite
13%
Reaction kinetics
13%
Superconducting transition temperature
13%
Composite materials
12%
Atomic force microscopy
12%
Crosslinking
12%
Dynamic mechanical analysis
12%
Hot Temperature
12%
Biological systems
11%
Tensile testing
11%
Glass transition
11%
Thermal cycling
11%
Differential scanning calorimetry
11%
Optical microscopy
10%
Magnets
10%
Cracks
9%
Rubber
9%
Chemical activation
9%
Recycling
8%
Characterization (materials science)
8%
Repair
8%
Aging of materials
8%
Polycondensation
7%
Personnel
7%
Coatings
7%
Laser beam effects
7%
Smart Polymers
7%
Thermodynamics
6%
Liquids
6%
Elastic moduli
6%
Strength of materials
6%
Compression molding
6%
Stress relief
5%
Electric fuses
5%
Chemistry
Diels-Alder Reaction
83%
Robotics
46%
Elastomer
39%
Magnetic Particle
37%
Polymer Network
35%
Humin
30%
Surface Damage
30%
Diels-Alder Cycloaddition
25%
Composite Material
21%
Sintering
16%
Ambient Reaction Temperature
13%
Mechanical Activation
13%
Thermal Cycling
12%
Application
12%
Flow
11%
Maleimide
11%
Magnetite
10%
Covalent Bond
10%
Furan
9%
Optical Microscopy
8%
Atomic Force Microscopy
7%
Magnetic Field
7%
Strength
7%
Compound Mobility
7%
Differential Scanning Calorimetry
7%
Time
7%
Filler
6%
Force
6%
Glass Transition Temperature
6%
Coating Agent
6%
Crosslinking
5%
Physics & Astronomy
healing
97%
robotics
32%
elastomers
24%
manufacturing
21%
actuators
21%
Diels-Alder reactions
18%
sintering
15%
synthesis
14%
composite materials
13%
polymers
12%
reaction kinetics
11%
lasers
8%
furans
8%
damage
7%
dienes
7%
glass transition temperature
7%
filaments
6%
temperature
6%
kinetics
6%
schedules
6%
gels
5%
optimization
5%
cooling
5%