If you made any changes in Pure, your changes will be visible here soon.

Fingerprint Dive into the research topics where James F Stubbins is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Engineering & Materials Science

Irradiation
Temperature
Copper alloys
Creep
Fatigue of materials
Neutrons
Radiation
Microstructure
Stainless steel
Oxides
Crack propagation
Helium
Martensitic steel
Neutron irradiation
Swelling
Synchrotrons
Defects
Ion bombardment
Mechanical properties
Precipitates
High temperature gas reactors
Transmission electron microscopy
Ferritic steel
Steel
Kinetics
Tensile properties
Fusion reactors
Cerium compounds
Heavy ions
Microstructural evolution
Atoms
Plastic deformation
Nucleation
Lanthanum
Iron
Vacancies
Corrosion
Ions
X ray diffraction
Aging of materials
Tritium
Inertial confinement fusion
Hardening
Fatigue crack propagation
Nanoparticles
Bismuth
Residual stresses
X rays
Synchrotron radiation
Eutectics

Chemical Compounds

Irradiation
Oxides
Temperature
Copper alloys
Stainless Steel
Creep
Fatigue of materials
Steel
Martensitic steel
Crack propagation
Microstructure
Helium
Radiation
Neutrons
Ferritic steel
Heavy Ions
Synchrotrons
Precipitates
Fusion reactors
Defects
Swelling
Kinetics
Ion bombardment
Atoms
Ions
Mechanical properties
Transmission electron microscopy
Vacancies
Nucleation
Neutron irradiation
X ray diffraction
Nickel
Iron
Plastic deformation
Nanoparticles
Molybdenum
Residual stresses
Copper
Lanthanum
High strength alloys
Eutectics
Yield stress
Fusion reactions
Corrosion
Alloy steel
Oxygen
Ductility
Dosimetry
Hardening
Point defects

Physics & Astronomy

Engineering

irradiation
residual stress
ion irradiation
x rays
nucleation
neutron irradiation

General

copper alloys
steels
stainless steels
voids
swelling
radiation
cracks
precipitates
microstructure
defects
damage
kinetics
reactors
transmission electron microscopy
bubbles
implantation
tensile tests
austenitic stainless steels
plastic deformation
hardening

Physics

temperature
fusion reactors
neutrons
synchrotrons
heavy ions
diffraction
atoms
nanoparticles
room temperature
cycles
ions
heat flux

Chemistry and Materials

fatigue life
oxides
lanthanum
mechanical properties
helium
tensile properties
yield strength
nickel
boron nitrides
oxygen
copper

Life Sciences

dosage