Engineering
Oak Ridge
100%
Stainless Steel
45%
Phase Composition
41%
Cross Section
41%
Scintillator
33%
Structural Materials
30%
Nuclear Reactor
29%
Fission Product
29%
Austenitic Stainless Steel
24%
Inductively Coupled Plasma
21%
Gamma Ray
20%
Department of Energy
20%
Solvent Extraction
19%
Finite Element Analysis
18%
Molten Salt Reactor
18%
Thin Films
17%
Rotors
15%
Room Temperature
15%
Bio-Oil
15%
Nuclear Fuel
15%
Stress Corrosion Cracking
15%
Least Square
14%
High Resolution
14%
Flowsheet
14%
Engineering
14%
Modal Analysis
14%
Low-Temperature
13%
Neutron Source
12%
Permanent Magnet
12%
Ion Source
12%
Light Water Reactors
12%
Nuclear Energy
12%
Target Material
12%
United States
11%
Ion Exchange
11%
Mols
11%
Power Engineering
10%
Design of Experiments
10%
Nuclear Material
9%
Experimental Result
9%
Neutron Generator
9%
Fuel Element
9%
Ground State
9%
Silicon Dioxide
9%
Radiation Effect
9%
Spent Nuclear Fuel
9%
Pulse Amplitude
9%
Corrosion Behavior
9%
Mass Spectrometer
9%
Enriched Uranium
9%
Good Agreement
8%
Tritium
8%
Alpha Particle
8%
Cooling Pump
8%
Vibration Analysis
8%
Thermomechanical Treatment
8%
Extraction Process
8%
Subsurface
8%
Square Regression
8%
Embrittlement
8%
Glove Box
8%
Concentrated Solar Power
8%
Ray Diffraction
8%
Data Acquisition System
8%
Gas Streams
8%
Fusion Reaction
8%
Thermodynamics
8%
Fast Neutron
7%
Tensiles
7%
Thermoelectricity
7%
Creep
7%
Energy dispersive spectrometry
7%
Discharge Mode
7%
Fuel Cycle
7%
Electric Lines
7%
Base Metal
7%
Microstructural Evolution
7%
Tokamak Device
7%
Decay Time
7%
Reactor Design
7%
Ferritic/Martensitic Steel
7%
Scanning Electron Microscope
7%
Corrosion Resistance
7%
Transients
7%
Processing Condition
6%
Elevated Temperature
6%
Yield Point
6%
Branching Ratio
6%
Research Reactors
6%
Nuclear Power Plant
6%
Fast Reactor
6%
Coating Thickness
6%
Two Dimensional
6%
Failure Analysis
6%
Capture Cross Section
6%
Annealing Temperature
6%
Tensile Property
6%
Stress Corrosion Crack
6%
Corrosion Study
6%
Aluminum Oxide
6%
Chemistry
Lanthanoid Atom
56%
Cesium
45%
Actinoid Atom
34%
Uranium
32%
Solvent Extraction
31%
Nitric Acid
29%
Radioactive Ion Beam
25%
formation
24%
Phase Composition
24%
Fission Product
24%
Spectroscopy
23%
Chemistry
23%
actinides
22%
Nanoparticle
21%
stability
20%
Calix[4]arene
20%
Thorium
19%
Table Salt
17%
Chemometrics
17%
Excited State
17%
Radioisotope
17%
Single Crystalline Solid
16%
Ground State
16%
Methanol
15%
Europium
15%
Laser Induced Breakdown Spectroscopy
15%
Gamma Ray
15%
Raman Spectroscopy
14%
Raman Spectrometry
14%
Coordination Chemistry
13%
Cerium
13%
Radiochemicals
13%
Cesium Ion
13%
Radioactive Waste
12%
Plutonium
12%
Spent Fuel Radioactive Waste
12%
Aqueous Solution
12%
Americium
12%
Ion Pair
12%
Hydrogen
11%
Samarium
11%
Radium
11%
Chromatography
11%
Experimental Design
11%
Molten Salt
11%
Raman Spectra
10%
Absorption Spectra
10%
Rare Earth Element
10%
Chelating Agent
10%
Neptunium
10%
Chemical Element
9%
Neutron Scattering
9%
Absorption Spectroscopy
9%
Purity
9%
Ion Exchange
9%
Fluorine
9%
Spin State
9%
Calixarene
9%
Nucleon
9%
Inductively Coupled Plasm Mass Spectrometry (ICPMS)
9%
Quadrupole
9%
Crystal Structure
8%
Quasiparticle
8%
X-Ray Diffraction
8%
Chloride Salt
8%
Actinium
8%
Spectroscopy
7%
Inductively Coupled Plasma
7%
Inelastic Neutron Scattering
7%
Nitrobenzene
7%
Aluminum
7%
Inductively Coupled Plasma Method
7%
Nuclear Fuel Cycle
7%
Complexation
7%
Pyrrole
7%
Spectrophotometry
7%
Curium
6%
Einsteinium
6%
Californium
6%
Partition Coefficient
6%
Crown Ether
6%
Heavy Ion
6%
Ammonia Synthesis
6%
Pyridine N-Oxide
6%
Superheavy Element
6%
Phonon
6%
Magnetism
6%
Anion
6%
Silver
6%
Chelation
6%
Nuclear Structure
6%
Barium
6%
Nuclear Energy
5%
Metal Ion
5%
Transfer Reaction
5%
Fluoride Salt
5%
Alpha-Particle
5%
Neutron Capture Cross-Section
5%
Halide
5%
Phosphine Oxide
5%
Material Science
Phosphor
60%
Oxide Compound
41%
Phase Composition
40%
Uranium
39%
Stainless Steel
38%
Grain Boundary
36%
Surface (Surface Science)
35%
Austenitic Stainless Steel
31%
Corrosion
26%
Nuclear Fuel
26%
Density
24%
Nanoparticle
24%
Building Material
21%
Single Crystal
20%
Scanning Electron Microscopy
19%
Neutron Irradiation
19%
Oxidation Reaction
18%
Cerium
17%
Corrosion Resistance
16%
Stress Corrosion Cracking
15%
Actinide
15%
Energy-Dispersive X-Ray Spectroscopy
13%
Plutonium
13%
Aluminum
13%
Transmission Electron Microscopy
12%
Ferritic/Martensitic Steel
12%
Fission Product
12%
Composite Material
12%
X-Ray Diffraction
12%
Tungsten
12%
Hydride
11%
Thorium
10%
Molybdenum
10%
Cerium Oxide
10%
Catalysis
10%
304 Stainless Steel
10%
Radioactive Waste
9%
Sodium
9%
Embrittlement
9%
Irradiation-Assisted Stress Corrosion Cracking
9%
Yield Stress
9%
Raman Spectroscopy
9%
Crystal Structure
8%
Silver
8%
Electron Backscatter Diffraction
8%
Alloying
8%
Analytical Method
8%
Lanthanum
8%
Electrodeposition
8%
Lanthanide Series
8%
Radiation Damage
7%
Thermal Aging
7%
Halide
7%
Samarium
7%
Absorption Spectra
7%
Solvent Extraction
7%
Hydrogenation
7%
Uranium Oxide
7%
Silicon
7%
Finite Element Method
7%
Grain Size
7%
Sol-Gel
7%
Coated Fuel Particles
6%
Europium
6%
Sintering
6%
Proton Irradiation
6%
Manganese
6%
Barium
6%
ZnO
6%
Thin Films
6%
Potassium
6%
Magnesium
6%
Microstructural Evolution
6%
Film
6%
Creep
6%
Silicon Carbide
6%
Natural Gas
6%
Inductively Coupled Plasma Mass Spectrometry
6%
Tomography
5%
Calcination
5%
Electrical Resistivity
5%
Gadolinium
5%
Electron Microscopy
5%
Tensile Property
5%
Cermet
5%
Metal Oxide
5%
Nitrogen Dioxide
5%
Zirconium
5%
Cesium
5%
Single Crystal Growth
5%
Chromium
5%
Strontium
5%
Crystal Defect
5%
Hydrogen Bonding
5%
Work Hardening
5%
Advanced Material
5%
Pitting Corrosion
5%
Aluminum Oxide
5%
Fracture Behavior
5%
Nanoclusters
5%