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

Chemical Compounds

Graphite
Composite materials
Fibers
Nanocomposites
Adhesion
Mechanical properties
Polymers
Surface treatment
Polypropylenes
Natural fibers
Shear strength
Graphite fibers
Processing
Elastic moduli
Thermodynamic properties
Epoxy Resins
polycarbonate
Polyesters
Reinforcement
Curing
Impact strength
Thermal conductivity
Polyethylene
Resins
Platelets
Powders
Cellulose
Coatings
Esters
Temperature
Hemp fibers
Polymer matrix
Polyester resins
Carbon Nanotubes
Fillers
Fracture toughness
Glass
Toughening
Dynamic mechanical analysis
Amines
Polyurethanes
Bending strength
Linseed Oil
Kenaf fibers
Electron beams
carbon fiber
Bearings (structural)
Fabrication
Extrusion
Compression molding