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

Creep
Temperature
Microstructure
Experiments
Grain boundaries
Fatigue of materials
Processing
Titanium
Scanning electron microscopy
Electron diffraction
Boron
Composite materials
Creep resistance
Twinning
Elongation
Tensile strength
Metals
Intermetallics
Scanning
Magnesium alloys
Electron microscopes
Heat treatment
Anisotropy
Cracks
Mechanical properties
Tensile properties
Volume fraction
Extrusion
Fibers
Borides
Textures
Strain rate
Titanium alloys
Fatigue crack propagation
Aging of materials
Powder metallurgy
Plutonium alloys
Wear of materials
Trace analysis
Grain boundary sliding
Shear stress
Yield stress
Cold rolling
Gallium alloys

Chemical Compounds

Creep
Temperature
Microstructure
Experiments
Grain boundaries
Fatigue of materials
Processing
Scanning electron microscopy
Electron diffraction
Boron
Composite materials
Titanium
Elongation
Creep resistance
Tensile strength
Twinning
Metals
Scanning
Electron microscopes
Intermetallics
Tensile properties
Heat treatment
Magnesium alloys
Cracks
Fibers
Extrusion
Anisotropy
Textures
Volume fraction
Strain rate
Powder metallurgy
Plutonium alloys
Titanium alloys
Grain boundary sliding
Trace analysis
Shear stress
Yield stress
Cold rolling

Physics & Astronomy

General

microstructure
slip
grain boundaries
casts
scanning electron microscopy
tensile deformation
elongation
cracks
electron microscopes
exponents
grain size
textures
sliding
creep tests
Udimet alloys
plutonium alloys
magnesium alloys
gallium alloys

Physics

temperature
room temperature
electrons
diffraction
electron diffraction
strain rate
diffraction patterns

Chemistry and Materials

tensile creep
creep strength
tensile strength
boron
titanium
intermetallics
tensile properties
twinning
composite materials

Engineering

scanning
heat treatment