Engineering & Materials Science
Oligomers
100%
Cements
57%
Mechanical properties
44%
Composite materials
40%
Film thickness
18%
Toughness
16%
Resins
15%
Gelation
11%
Dynamic mechanical analysis
10%
ASTM standards
10%
Benzene
10%
Glass transition
9%
Polymerization
9%
Superconducting transition temperature
9%
Gels
9%
Bending strength
8%
Fillers
8%
Fracture toughness
7%
Elastic moduli
7%
Viscosity
7%
Medicine & Life Sciences
Urethane
81%
Sulfhydryl Compounds
32%
Isocyanates
30%
Resin Cements
26%
dicyclohexylmethane
23%
pentaerythritol tetra(3-mercaptopropionate)
23%
hexamethylene glycol
19%
triethylene glycol dimethacrylate
15%
Transition Temperature
13%
Vitrification
13%
Methacrylates
13%
Flexural Strength
12%
Benzene
12%
Viscosity
10%
Polymerization
10%
Dentists
10%
Gels
8%
Chemical Compounds
Rheology
62%
Oligomer
55%
Composite Material
34%
Resin Cement
30%
Thiol
22%
Crosslink Density
20%
Isocyanate
17%
Shear Modulus
11%
Pentaerythritol
10%
Fracture Toughness
9%
Bend Strength
9%
NIR Spectroscopy
8%
Filler
7%
Methacrylate
7%
Glass Transition Temperature
7%
Benzene
6%
Polymerization Reaction
5%
Reduction
3%