Profile Fingerprint is based on mining the text of the experts' scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

Engineering & Materials Science

Composite materials
Fibers
Nanocomposites
Mechanical properties
Adhesion
Graphite
Carbon fibers
Polymers
Processing
Graphene
Temperature
Surface treatment
Natural fibers
Polypropylenes
Thermodynamic properties
Cellulose
Shear strength
Elastic moduli
Reinforcement
Glass fibers
Graphite fibers
Resins
Clay
Coatings
Curing
Platelets
Glass
Plastics
Thermal conductivity
Epoxy resins
Polymer matrix
Impact strength
Esters
Lactic acid
Polyesters
Electric properties
Fracture toughness
Extrusion
High density polyethylenes
Nanofibers
Thermoplastics
Polycarbonates
Bending strength
Injection molding

Chemical Compounds

Composite materials
Fibers
Graphite
Adhesion
Mechanical properties
Nanocomposites
carbon fiber
Polymers
Processing
Temperature
Surface treatment
Shear strength
Elastic moduli
Thermodynamic properties
Polypropylenes
Natural fibers
Reinforcement
Coatings
Resins
Graphite fibers
Curing
Thermal conductivity
Glass
Epoxy Resins
Esters
Impact strength
Polyesters
Powders
Fabrication
Cellulose
Polyethylene
Platelets
Fracture toughness
Polymer matrix
Tensile strength
Amines
Electron beams

Physics & Astronomy

General

fibers

Chemistry and Materials

composite materials
adhesion
polymers
carbon fibers
nanocomposites
graphite
mechanical properties

Mathematical and Computer Sciences

matrices