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

Concretes
Cements
Fibers
Reinforced concrete
Composite materials
Durability
Reinforcement
Steel fibers
Compressive strength
High performance concrete
Cellulose
Fiber reinforced materials
Bending strength
Graphite
Nanostructured materials
Aluminosilicates
Microcracks
Carbon fibers
Concrete aggregates
Ashes
Nanocomposites
Volume fraction
Mechanical properties
Hydration
Steel
Wood
Fly ash
Mortar
Moisture
Polymers
Concrete pipe
Polypropylenes
Impact resistance
Strain rate
Cracks
Curing
Aging of materials
Ductility
Toughness
Bearings (structural)
Portland cement
Carbon nanofibers
Prestressing
Cyclic loads
Phase change materials
Glass fibers
Concrete reinforcements
Hydraulics
Tensile strength
Drying

Chemical Compounds

Concretes
Cements
Fibers
Composite materials
Reinforced concrete
Alkalies
Durability
Steel fibers
Graphite
Polymers
Steel
Reinforcement
High performance concrete
Microcracks
Bending strength
Compressive strength
Cellulose
Polypropylenes
Volume fraction
Mechanical properties
Nanocomposites
Nanostructured materials
Fiber reinforced materials
Concrete aggregates
Wood
Ashes
Curing
Aging of materials
Prestressing
Moisture
Cracks
Flame Retardants
Polyethylene
Concrete pipe
Coal Ash
Mortar
Bearings (structural)
Impact resistance
Ointments
Adhesives
Hydration
Concrete reinforcements
Tensile strength
Ductility
Toughness
Concrete mixtures
Straw
Carbon Monoxide
Silicon Dioxide
Polyvinyl Alcohol