Engineering & Materials Science
Polymers
100%
Composite materials
94%
Fibers
57%
Polymerization
50%
Self-healing materials
38%
Ring opening polymerization
34%
Catalysts
34%
Thin films
27%
Substrates
27%
Chemical activation
24%
Coatings
24%
Recovery
22%
Thermosets
22%
Temperature
21%
Monomers
20%
Lithium-ion batteries
20%
Polymer matrix composites
18%
Depolymerization
18%
Carbon fibers
17%
Delamination
17%
Hot Temperature
16%
Fluorescence
15%
Glass transition
15%
Electrodes
15%
Lasers
14%
Urea
14%
Repair
14%
Liquids
14%
Superconducting transition temperature
13%
Shape memory effect
13%
Microspheres
13%
Microencapsulation
13%
Glass
12%
Amines
12%
Polymer matrix
12%
Characterization (materials science)
12%
Debonding
12%
Residual stresses
12%
Polydimethylsiloxane
12%
Fatigue of materials
12%
Elastomers
11%
Mechanical properties
11%
Skin
10%
Chemical Compounds
Dicyclopentadiene
38%
Fracture Toughness
27%
Ring Opening Metathesis Polymerisation
23%
Reinforced Plastic
22%
Grubbs Metathesis
18%
Catalyst
18%
Phthalaldehyde
16%
Strain
16%
Strength
15%
Liquid
14%
Chemistry
14%
Glass
13%
Delamination
13%
Volume
12%
Application
12%
Carbon Fiber
11%
Force
11%
Liquid Film
11%
Glass Transition Temperature
10%
Displacement
10%
Cantilever Beam
10%
Heat
10%
Solvent
9%
Vaporization
9%
Crack Propagation
9%
Length
9%
Cooling
9%
Surface
9%
Depolymerization
8%
Tension
7%
Curing
7%
Wave
7%
Multilayer
7%
Epoxy Resin
7%
Simulation
7%
Fluorescence
7%
Mechanical Stress
7%
Physics & Astronomy
healing
37%
composite materials
20%
polymers
18%
matrices
9%
shape memory alloys
9%
thin films
9%
adhesion
9%
damage
8%
residual stress
8%
coatings
8%
capsules
8%
polymerization
8%
microchannels
8%
fibers
8%
rods
7%
polymer matrix composites
6%
restoration
6%
cracks
6%
activation
6%
spallation
6%
recovery
5%
gels
5%
fiber pushout
5%
lead zirconate titanates
5%
gold
5%
