Engineering & Materials Science
Hydrogen bonds
95%
Elastomers
74%
3D printers
68%
Extrusion
66%
Toughness
18%
Adhesion
18%
Polyethers
14%
Polymers
14%
Self assembly
12%
Tensile strain
12%
Urea
12%
Copolymers
11%
Anisotropy
10%
Solidification
9%
Elasticity
9%
Elongation
9%
Elastic moduli
8%
Viscosity
8%
Tensile strength
7%
Cooling
6%
Chemical analysis
6%
Geometry
5%
Temperature
3%
Medicine & Life Sciences
Elastomers
100%
polyurea
95%
Hydrogen Bonding
83%
Direction compound
28%
Three-Dimensional Printing
26%
Cytosine
23%
Polymers
17%
Printing
12%
Elastic Modulus
11%
Tensile Strength
11%
Anisotropy
11%
Elasticity
11%
Viscosity
10%
Urea
9%
Temperature
7%
Chemical Compounds
Elastomer
67%
Extrusion
67%
Additive
46%
Hydrogen
35%
Supramolecular Polymer
29%
Strain
16%
Solidification
12%
Polyether
11%
Anisotropy
10%
Cooling
10%
Tensile Strength
9%
Urea
9%
Dissociation
8%
Copolymer
7%
Liquid Film
5%
Surface
3%