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

Soldering alloys
Microstructure
Creep
Temperature
Grain boundaries
Crystal orientation
Textures
Nucleation
Crystals
Composite materials
Strain rate
Eutectics
Twinning
Imaging techniques
Plasticity
Aging of materials
Microscopic examination
Thermal cycling
Cracks
Titanium
Niobium
Tin
Intermetallics
Microcracks
Ball grid arrays
Fatigue of materials
Hot working
Substrates
Aluminum
Electron diffraction
Single crystals
Grain boundary sliding
Metals
Solidification
Superplasticity
Shear stress
Plastics
Mechanical properties
Electrons
Microstructural evolution
Copper
Crack propagation
X rays
Anisotropy
Dislocations (crystals)
Plastic deformation
Superplastic deformation
Creep resistance
Nanoindentation
Trace analysis

Chemical Compounds

Soldering alloys
Microstructure
Creep
Temperature
Grain boundaries
Crystal orientation
Textures
Crystals
Nucleation
Composite materials
Eutectics
Plasticity
Strain rate
Twinning
Aging of materials
Microscopic examination
Imaging techniques
Thermal cycling
Tin
Titanium
Intermetallics
Fatigue of materials
Niobium
Cracks
Substrates
Hot working
Electron diffraction
Grain boundary sliding
Ball grid arrays
Shear stress
Solidification
Microcracks
Aluminum
Superplasticity
Metals
Single crystals
Plastics
Copper
X rays
Crack propagation
Microstructural evolution
Anisotropy
Plastic deformation
Superplastic deformation
Reinforcement
Nanoindentation
Dislocations (crystals)
Creep resistance
Trace analysis
Talc

Physics & Astronomy

General

solders
microstructure
slip
grain boundaries
crystals
textures
eutectics
shear
purity
balls
microscopy
histories
damage
grids
radio frequencies
misalignment
sliding
cooling
cracks
shock
solidification
microcracks

Chemistry and Materials

niobium
plastic properties
composite materials
titanium
twinning
mechanical properties
tin
aluminum
intermetallics

Aerospace Sciences

cavities

Physics

cycles
temperature
electrons
diffraction
strain rate

Engineering

nucleation
mechanical shock
hot working
heat treatment
ingots
softening