ICFRM9 - List of Keywords

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List of Keywords

Codes	Keywords
A01	Absorber Materials
A02	Actinides (excludes Plutonium, Thorium and Uranium)
A03	Activity
A04	Adsorption
A05	Aging and Age Hardening
A06	Aluminum, Aluminum Alloys and Compounds
A07	Amorphization and Amorphous Materials
A08	Analytical Instruments and Methods

B01	Beryllium, Beryllium Alloys and Compounds
B02	Blanket Materials
B03	Blisters (see Surface Effects)
B04	Boron and Boronization
B05	Breeding Materials

C01	Carbides (see Precipitates and Precipitation)
C02	Carbon and Carbon Materials
C03	Cavities (includes Voids, Holes)
C04	Ceramics (not listed elsewhere)
C05	Chemical Reactions (includes Electrochemical and Thermochemical Reactions)
C06	Cladding Materials
C07	Coatings and Coated Particles
C08	Cold-Worked Materials
C09	Compatibility and Corrosion (includes Stress Corrosion Cracking)
C10	Composite Materials Constitution (see Phase Equilibria)
C11	Copper, Copper Alloys and Compounds
C12	Crack
C13	Creep and Stress Relaxation
C14	Crystallographic Properties

D01	Data Base and Materials Data
D02	Defects and Defect Structures (excludes Irradiation)
D03	Deformation
	Deuterium and Deuterides (see Hydrogen and Hydrides)
	Diamond (see Carbon)
D04	Diffusion
D05	Dislocations
D06	Divertor Materials
D07	Dosimetry
B08	Ductility and Ductile-Brittle Transition

E01	Electrical Properties
E02	Electron Irradiation
E03	Electron Microscopy
E04	Embrittlement
E05	Environmental Effects
	Erosion (see Surface Effects)
	Evaporation (see Phase Transformation)
E06	Experimental Techniques

F01	Fabrication
F02	Fast Reactors
F03	Fatigue
F04	FirstWall Materials
F05	Fission Products
F06	Fracture and Fracture Toughness
F07	Fuel Elements
F08	Fusion Reactors and Fusion Reactor Design

G01	Gamma Irradiation
G02	Gases (excludes Hydrogen, Helium and Tritium) in Materials
	Glasses (see Amorphization and Amorphous Materials)
G03	Grain Boundaries
	Graphite (see Carbon)
G04	Growth

H01	Heat Treatment
H02	Helium
H03	High Heat Flux Materials
H04	History (of Nuclear Materials, Nuclear Technology)
H05	Hydrogen and Hydrides (includes deuterium and Deuterides)

I01	Impact
I02	Impurities
	Interatomic Potentials (see Defects and Defect Structures, or Phys. properties)
I03	Interfaces
	Intermetallic Compounds (see Metals, Alloys and Compounds)
	Interstitials (see Defects and Defect Structures, or Radiation Effects: Atomic Defects, or Impurities)
I04	Internal Friction
I05	Ion Irradiation
106	Iron, Iron alloys (excludes Steels) and Compounds
107	Irradiation (not listed elsewhere, includes Irradiating History of Schedule

J01	Joining

K01	Kinetics

L01	Laser
L02	Limiter Materials
L03	Liquid Metals
	Lithium (see Liquid Metals, Breeding Materials, or Metals, Alloys and Compounds)
L04	Low Activation and Low Activation Materials (includes Reduced Activation)

M01	Magnesium, Magnesium alloys and Compounds
M02	Mathematical and Computational Methods
M03	Mechanical Properties (not listed elsewhere)
	Melting (see Phase Transformation)
M04	Metals, Alloys and Compounds (not listed elsewhere)
M05	Microstructure and Texture (excludes by Irradiation)
	Migration (see Diffusion)
M06	Moderator and Reflector Materials
	Molecular Dynamics (see Mathematical and Computational Methods)
M07	Molybdenum, Molybdenum Alloys and Compounds
M08	Monitoring Methods

N01	Neutron Irradiation
N02	Nickel, Nickel Alloys and Compounds
N03	Niobium, Niobium Alloys and Compounds
N04	Nuclear Properties

O01	Optical Microscopy
	Optical Properties (see Physical Properties)
	Oxidation/Reduction Reaction (see Chemical Reactions)

P01	Permeation
P02	Phase Equilibria (includes Constitution, Phase Stability, Phase Instability)
P03	Phase Transformation (includes Evaporation, Sublimation)
P04	Physical Properties (not listed elsewhere)
P05	Plasma Facing Materials
P06	Plasma-Materials Interaction
P07	Plasma Properties (includes Plasma Disruption)
	Point Defects (see Defects and Defect Structures, or Radiation Effects: Atomic Defects)
P08	Polymers
P09	Pores (includes Porosity, Fabrication Pores)
	Positron Annihilation (see Analytical Instruments and Methods)
P10	Powder Processes and Products
P11	Precipitates and Precipitation
P12	Pressure Vessels
P13	Processing
P14	Proton Irradiation

R01	Radiation Effects: Atomic Defects
R02	Radiation Effects: Extended Defects, Microstructures
R03	Radiation Effects: Mechanical Properties
R04	Radiation Effects: Physical Properties
R05	Radiation Sources
	Radioactive Waste (see Wastes)
R06	Radiolysis
R07	Rare Earths
R08	Recrystallization, Recovery and Grain Growth
R09	Redeposition
	Reduced Activation (see Low Activation and Low Activation Materials)
R10	Refractory Metals, Alloys and Compounds (not listed elsewhere)
R11	Reprocessing

S01	Safety of Nuclear Reactors
S02	Segregation
S03	Semiconductors
S04	Silicon and Silicon Compounds
	Sintering (see Powder Processes and Products)
	Sputtering (see Surface Effects)
S05	Steels, Austenitic
S06	Steels, Ferritic
S07	Structural Materials
	Sublimation (see Phase Transformation)
S08	Superconductors and Superconducting Magnet Materials
S09	Surface Effects
S10	Swelling

	Texture (see Microstructure)
T01	Theory and Modeling
T02	Thermal Reactors
T03	Thermal Shock
T04	Thermodynamic Properties
T05	Thermomechanical Treatment
T06	Thermophysical Properties
T07	Thorium, Thorium Alloys and Compounds
T08	Titanium, Titanium Alloys and Compounds
T09	Tritium and Tritides
T10	Tungsten, Tungsten Alloys and Compounds

U01	Uranium, Uranium Alloys and Compounds

	Vacancies (see Defects and Defect Structures, or Radiation Effects: Atomic Defects)
V01	Vanadium, Vanadium Alloys and Compounds
V02	Vitrification
	Voids (see Cavities)

W01	Wastes
W02	Weld

Z01	Zirconium, Zirconium Alloys and Compounds

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Updated: August 4, 1999
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