James F Stubbins

Professor, Nuclear, Plasma, and Radiological Engineering
Donald Biggar Willett Professor, Nuclear, Plasma, and Radiological Engineering

Emailjstubbin@illinois.edu

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Engineering & Materials Science

Irradiation

Temperature

Copper alloys

Creep

Fatigue of materials

Neutrons

Radiation

Microstructure

Stainless steel

Oxides

Crack propagation

Helium

Martensitic steel

Swelling

Neutron irradiation

Synchrotrons

Ion bombardment

Defects

Mechanical properties

Precipitates

High temperature gas reactors

Transmission electron microscopy

Steel

Ferritic steel

Kinetics

Tensile properties

Fusion reactors

Atoms

Heavy ions

Microstructural evolution

Nucleation

Plastic deformation

Iron

Vacancies

Corrosion

Hardening

Cerium compounds

Ions

Austenitic stainless steel

X ray diffraction

Aging of materials

Lanthanum

Tritium

Inertial confinement fusion

Fatigue crack propagation

Nanoparticles

Bismuth

Residual stresses

X rays

Synchrotron radiation

Chemical Compounds

Irradiation

Oxides

Temperature

Copper alloys

Stainless Steel

Creep

Fatigue of materials

Steel

Martensitic steel

Crack propagation

Microstructure

Helium

Radiation

Ferritic steel

Heavy Ions

Synchrotrons

Neutrons

Precipitates

Swelling

Fusion reactors

Defects

Kinetics

Ion bombardment

Ions

Mechanical properties

Transmission electron microscopy

Vacancies

Nucleation

Atoms

Neutron irradiation

Lanthanum

X ray diffraction

Nickel

Iron

Plastic deformation

Nanoparticles

Molybdenum

Austenitic stainless steel

Residual stresses

Hardening

Copper

High strength alloys

Eutectics

Yield stress

Fusion reactions

Corrosion

Cerium compounds

Alloy steel

Oxygen

Ductility

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

atoms

heavy ions

diffraction

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