Subject index for volumes 172–174
Identifieur interne : 003904 ( Main/Exploration ); précédent : 003903; suivant : 003905Subject index for volumes 172–174
Auteurs :Source :
- Journal of The Less-Common Metals [ 0022-5088 ] ; 1991.
Descripteurs français
English descriptors
- KwdEn :
- Absorption rate, Alloy, Alloy electrodes, Alloy membranes, Aluminium, Amorphous powders, Anodic oxidation treatment, Anomaly, Basic mechanisms, Binding materials, Calorimetric enthalpies, Catalytic activities, Catalytic effect, Cell characteristics, Cerium deuteride, Cobalt, Complex metal oxides, Copper plating, Correlated tracer diffusion, Crystal growth, Crystalline zr2pd hydrides, Cyclic, Cyclic hydriding, Cyclic stability, Cycling, Cycling behaviour, Dehydriding stability, Density modes, Desorption, Desorption kinetics, Deuteride, Deuteride formation, Deuterium, Deuterium depth distribution, Diffraction method, Diffusivity, Discharge capacities, Disordered systems, Domain growth, Dynamic dilatation, Electrical relationships, Electrochemical, Electrochemical hydrogen, Electrochemical measurements, Electrochemical properties, Electronic density, Electronic properties, Electronic structure, Engineering methods, Equilibrium hydrogen pressure, Expansion damage, Ferromagnetic hydrides, Field depolarization rates, Friction peak, Giant magnetostrictive refe, Gorsky relaxation, Group alloys, Hydride, Hydride batteries, Hydride battery, Hydride electrodes, Hydride storage containers, Hydriding, Hydriding behaviour, Hydriding kinetics, Hydriding reactions, Hydriding titanium, Hydrogen, Hydrogen absorption, Hydrogen absorption process, Hydrogen decrepitation, Hydrogen depth, Hydrogen diffusion, Hydrogen dissolution, Hydrogen equilibrium pressures, Hydrogen isotopes, Hydrogen jump geometry, Hydrogen mobility, Hydrogen motion, Hydrogen pairing, Hydrogen permeation, Hydrogen permeation characteristics, Hydrogen sites, Hydrogen solubility, Hydrogen sorption properties, Hydrogen storage, Hydrogen storage alloys, Hydrogenated, Hydrogenated clusters, Hyperstoichiometric alloys, Inelastic, Inelastic neutron, Inert gases, Initial activation, Intermetallic compound lanis, Intermetallics, Interstitial oxygen, Isothermal conditions, Isotope, Kinetic energy, Kinetic study, Kinetics, Lani, Lattice, Lattice defects, Lattice parameters, Laves phase alloys, Linear solution, Localized modes, Magnesium, Magnesium alloys, Magnesium interfaces, Magnetic behavior, Magnetic fields, Magnetic resonance study, Mass spectrometry, Mechanochemical reaction, Metal hydride, Metal hydride electrodes, Metal hydride powders, Metal hydrides, Metallic glass hydride, Metallic glasses, Metallic properties, Microencapsulated alloys, Microstructure, Msssbauer, Msssbauer spectroscopy, Msssbauer study, Muon, Neutron, Neutron compton, Neutron diffraction studies, Neutron vibrational spectroscopy, Nickel foils, Niobium, Nuclear reaction analysis, Organic compounds, Oxidized, Oxidized niobium surfaces, Palladium, Palladium foil cathode, Palladium hydrogen, Palladium nickel hydride, Partial replacement, Partial substitution, Permeation, Phase studies, Porous metal matrix hydride compacts, Positive muon, Power station, Pressure tubes, Pseudobinary alloy systems, Quantum diffusion, Radiolytic tritium decay, Rare earth dihydrides, Reaction kinetics, Reactor system, Resonance studies, Room temperature, Solid solution alloys, Solubility, Stoner parameter, Storage materials, Structural changes, Structural properties, Superlattices, Surface contaminations, Surface oxide layers, Surface reaction rates, Tantalum, Temperature tunnelling, Thermal conductivity, Thermal desorption spectra, Thermal desorption spectrum, Thermal energy storage, Thermal stability, Thermodynamic, Thermodynamic behaviour, Thermodynamic properties, Thermodynamic stability, Thin copper films, Thin films, Titanium, Total energy, Transition metal hydrides, Transition metals, Transmission electron microscopy study, Tritium, Vleck compound, Ybacuo films.
- Teeft :
- Absorption rate, Alloy, Alloy electrodes, Alloy membranes, Aluminium, Amorphous powders, Anodic oxidation treatment, Anomaly, Basic mechanisms, Binding materials, Calorimetric enthalpies, Catalytic activities, Catalytic effect, Cell characteristics, Cerium deuteride, Cobalt, Complex metal oxides, Copper plating, Correlated tracer diffusion, Crystal growth, Crystalline zr2pd hydrides, Cyclic, Cyclic hydriding, Cyclic stability, Cycling, Cycling behaviour, Dehydriding stability, Density modes, Desorption, Desorption kinetics, Deuteride, Deuteride formation, Deuterium, Deuterium depth distribution, Diffraction method, Diffusivity, Discharge capacities, Disordered systems, Domain growth, Dynamic dilatation, Electrical relationships, Electrochemical, Electrochemical hydrogen, Electrochemical measurements, Electrochemical properties, Electronic density, Electronic properties, Electronic structure, Engineering methods, Equilibrium hydrogen pressure, Expansion damage, Ferromagnetic hydrides, Field depolarization rates, Friction peak, Giant magnetostrictive refe, Gorsky relaxation, Group alloys, Hydride, Hydride batteries, Hydride battery, Hydride electrodes, Hydride storage containers, Hydriding, Hydriding behaviour, Hydriding kinetics, Hydriding reactions, Hydriding titanium, Hydrogen, Hydrogen absorption, Hydrogen absorption process, Hydrogen decrepitation, Hydrogen depth, Hydrogen diffusion, Hydrogen dissolution, Hydrogen equilibrium pressures, Hydrogen isotopes, Hydrogen jump geometry, Hydrogen mobility, Hydrogen motion, Hydrogen pairing, Hydrogen permeation, Hydrogen permeation characteristics, Hydrogen sites, Hydrogen solubility, Hydrogen sorption properties, Hydrogen storage, Hydrogen storage alloys, Hydrogenated, Hydrogenated clusters, Hyperstoichiometric alloys, Inelastic, Inelastic neutron, Inert gases, Initial activation, Intermetallic compound lanis, Intermetallics, Interstitial oxygen, Isothermal conditions, Isotope, Kinetic energy, Kinetic study, Kinetics, Lani, Lattice, Lattice defects, Lattice parameters, Laves phase alloys, Linear solution, Localized modes, Magnesium, Magnesium alloys, Magnesium interfaces, Magnetic behavior, Magnetic fields, Magnetic resonance study, Mass spectrometry, Mechanochemical reaction, Metal hydride, Metal hydride electrodes, Metal hydride powders, Metal hydrides, Metallic glass hydride, Metallic glasses, Metallic properties, Microencapsulated alloys, Microstructure, Msssbauer, Msssbauer spectroscopy, Msssbauer study, Muon, Neutron, Neutron compton, Neutron diffraction studies, Neutron vibrational spectroscopy, Nickel foils, Niobium, Nuclear reaction analysis, Organic compounds, Oxidized, Oxidized niobium surfaces, Palladium, Palladium foil cathode, Palladium hydrogen, Palladium nickel hydride, Partial replacement, Partial substitution, Permeation, Phase studies, Porous metal matrix hydride compacts, Positive muon, Power station, Pressure tubes, Pseudobinary alloy systems, Quantum diffusion, Radiolytic tritium decay, Rare earth dihydrides, Reaction kinetics, Reactor system, Resonance studies, Room temperature, Solid solution alloys, Solubility, Stoner parameter, Storage materials, Structural changes, Structural properties, Superlattices, Surface contaminations, Surface oxide layers, Surface reaction rates, Tantalum, Temperature tunnelling, Thermal conductivity, Thermal desorption spectra, Thermal desorption spectrum, Thermal energy storage, Thermal stability, Thermodynamic, Thermodynamic behaviour, Thermodynamic properties, Thermodynamic stability, Thin copper films, Thin films, Titanium, Total energy, Transition metal hydrides, Transition metals, Transmission electron microscopy study, Tritium, Vleck compound, Ybacuo films.
Url:
DOI: 10.1016/S0022-5088(06)80052-4
Affiliations:
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Le document en format XML
<record><TEI wicri:istexFullTextTei="biblStruct"><teiHeader><fileDesc><titleStmt><title xml:lang="en">Subject index for volumes 172–174</title></titleStmt><publicationStmt><idno type="wicri:source">ISTEX</idno><idno type="RBID">ISTEX:3C24878CD24E3F590FAA006792880A37FAB3E1C7</idno><date when="1991" year="1991">1991</date><idno type="doi">10.1016/S0022-5088(06)80052-4</idno><idno type="url">https://api.istex.fr/document/3C24878CD24E3F590FAA006792880A37FAB3E1C7/fulltext/pdf</idno><idno type="wicri:Area/Istex/Corpus">000D09</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Corpus" wicri:corpus="ISTEX">000D09</idno><idno type="wicri:Area/Istex/Curation">000D09</idno><idno type="wicri:Area/Istex/Checkpoint">001663</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Checkpoint">001663</idno><idno type="wicri:Area/Main/Merge">003C30</idno><idno type="wicri:Area/Main/Curation">003904</idno><idno type="wicri:Area/Main/Exploration">003904</idno></publicationStmt><sourceDesc><biblStruct><analytic><title level="a" type="main" xml:lang="en">Subject index for volumes 172–174</title></analytic><monogr></monogr><series><title level="j">Journal of The Less-Common Metals</title><title level="j" type="abbrev">JCLM</title><idno type="ISSN">0022-5088</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="1991">1991</date><biblScope unit="volume">172–174</biblScope><biblScope unit="supplement">P3</biblScope><biblScope unit="page" from="1394">1394</biblScope><biblScope unit="page" to="1409">1409</biblScope></imprint><idno type="ISSN">0022-5088</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0022-5088</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Absorption rate</term><term>Alloy</term><term>Alloy electrodes</term><term>Alloy membranes</term><term>Aluminium</term><term>Amorphous powders</term><term>Anodic oxidation treatment</term><term>Anomaly</term><term>Basic mechanisms</term><term>Binding materials</term><term>Calorimetric enthalpies</term><term>Catalytic activities</term><term>Catalytic effect</term><term>Cell characteristics</term><term>Cerium deuteride</term><term>Cobalt</term><term>Complex metal oxides</term><term>Copper plating</term><term>Correlated tracer diffusion</term><term>Crystal growth</term><term>Crystalline zr2pd hydrides</term><term>Cyclic</term><term>Cyclic hydriding</term><term>Cyclic stability</term><term>Cycling</term><term>Cycling behaviour</term><term>Dehydriding stability</term><term>Density modes</term><term>Desorption</term><term>Desorption kinetics</term><term>Deuteride</term><term>Deuteride formation</term><term>Deuterium</term><term>Deuterium depth distribution</term><term>Diffraction method</term><term>Diffusivity</term><term>Discharge capacities</term><term>Disordered systems</term><term>Domain growth</term><term>Dynamic dilatation</term><term>Electrical relationships</term><term>Electrochemical</term><term>Electrochemical hydrogen</term><term>Electrochemical measurements</term><term>Electrochemical properties</term><term>Electronic density</term><term>Electronic properties</term><term>Electronic structure</term><term>Engineering methods</term><term>Equilibrium hydrogen pressure</term><term>Expansion damage</term><term>Ferromagnetic hydrides</term><term>Field depolarization rates</term><term>Friction peak</term><term>Giant magnetostrictive refe</term><term>Gorsky relaxation</term><term>Group alloys</term><term>Hydride</term><term>Hydride batteries</term><term>Hydride battery</term><term>Hydride electrodes</term><term>Hydride storage containers</term><term>Hydriding</term><term>Hydriding behaviour</term><term>Hydriding kinetics</term><term>Hydriding reactions</term><term>Hydriding titanium</term><term>Hydrogen</term><term>Hydrogen absorption</term><term>Hydrogen absorption process</term><term>Hydrogen decrepitation</term><term>Hydrogen depth</term><term>Hydrogen diffusion</term><term>Hydrogen dissolution</term><term>Hydrogen equilibrium pressures</term><term>Hydrogen isotopes</term><term>Hydrogen jump geometry</term><term>Hydrogen mobility</term><term>Hydrogen motion</term><term>Hydrogen pairing</term><term>Hydrogen permeation</term><term>Hydrogen permeation characteristics</term><term>Hydrogen sites</term><term>Hydrogen solubility</term><term>Hydrogen sorption properties</term><term>Hydrogen storage</term><term>Hydrogen storage alloys</term><term>Hydrogenated</term><term>Hydrogenated clusters</term><term>Hyperstoichiometric alloys</term><term>Inelastic</term><term>Inelastic neutron</term><term>Inert gases</term><term>Initial activation</term><term>Intermetallic compound lanis</term><term>Intermetallics</term><term>Interstitial oxygen</term><term>Isothermal conditions</term><term>Isotope</term><term>Kinetic energy</term><term>Kinetic study</term><term>Kinetics</term><term>Lani</term><term>Lattice</term><term>Lattice defects</term><term>Lattice parameters</term><term>Laves phase alloys</term><term>Linear solution</term><term>Localized modes</term><term>Magnesium</term><term>Magnesium alloys</term><term>Magnesium interfaces</term><term>Magnetic behavior</term><term>Magnetic fields</term><term>Magnetic resonance study</term><term>Mass spectrometry</term><term>Mechanochemical reaction</term><term>Metal hydride</term><term>Metal hydride electrodes</term><term>Metal hydride powders</term><term>Metal hydrides</term><term>Metallic glass hydride</term><term>Metallic glasses</term><term>Metallic properties</term><term>Microencapsulated alloys</term><term>Microstructure</term><term>Msssbauer</term><term>Msssbauer spectroscopy</term><term>Msssbauer study</term><term>Muon</term><term>Neutron</term><term>Neutron compton</term><term>Neutron diffraction studies</term><term>Neutron vibrational spectroscopy</term><term>Nickel foils</term><term>Niobium</term><term>Nuclear reaction analysis</term><term>Organic compounds</term><term>Oxidized</term><term>Oxidized niobium surfaces</term><term>Palladium</term><term>Palladium foil cathode</term><term>Palladium hydrogen</term><term>Palladium nickel hydride</term><term>Partial replacement</term><term>Partial substitution</term><term>Permeation</term><term>Phase studies</term><term>Porous metal matrix hydride compacts</term><term>Positive muon</term><term>Power station</term><term>Pressure tubes</term><term>Pseudobinary alloy systems</term><term>Quantum diffusion</term><term>Radiolytic tritium decay</term><term>Rare earth dihydrides</term><term>Reaction kinetics</term><term>Reactor system</term><term>Resonance studies</term><term>Room temperature</term><term>Solid solution alloys</term><term>Solubility</term><term>Stoner parameter</term><term>Storage materials</term><term>Structural changes</term><term>Structural properties</term><term>Superlattices</term><term>Surface contaminations</term><term>Surface oxide layers</term><term>Surface reaction rates</term><term>Tantalum</term><term>Temperature tunnelling</term><term>Thermal conductivity</term><term>Thermal desorption spectra</term><term>Thermal desorption spectrum</term><term>Thermal energy storage</term><term>Thermal stability</term><term>Thermodynamic</term><term>Thermodynamic behaviour</term><term>Thermodynamic properties</term><term>Thermodynamic stability</term><term>Thin copper films</term><term>Thin films</term><term>Titanium</term><term>Total energy</term><term>Transition metal hydrides</term><term>Transition metals</term><term>Transmission electron microscopy study</term><term>Tritium</term><term>Vleck compound</term><term>Ybacuo films</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Absorption rate</term><term>Alloy</term><term>Alloy electrodes</term><term>Alloy membranes</term><term>Aluminium</term><term>Amorphous powders</term><term>Anodic oxidation treatment</term><term>Anomaly</term><term>Basic mechanisms</term><term>Binding materials</term><term>Calorimetric enthalpies</term><term>Catalytic activities</term><term>Catalytic effect</term><term>Cell characteristics</term><term>Cerium deuteride</term><term>Cobalt</term><term>Complex metal oxides</term><term>Copper plating</term><term>Correlated tracer diffusion</term><term>Crystal growth</term><term>Crystalline zr2pd hydrides</term><term>Cyclic</term><term>Cyclic hydriding</term><term>Cyclic stability</term><term>Cycling</term><term>Cycling behaviour</term><term>Dehydriding stability</term><term>Density modes</term><term>Desorption</term><term>Desorption kinetics</term><term>Deuteride</term><term>Deuteride formation</term><term>Deuterium</term><term>Deuterium depth distribution</term><term>Diffraction method</term><term>Diffusivity</term><term>Discharge capacities</term><term>Disordered systems</term><term>Domain growth</term><term>Dynamic dilatation</term><term>Electrical relationships</term><term>Electrochemical</term><term>Electrochemical hydrogen</term><term>Electrochemical measurements</term><term>Electrochemical properties</term><term>Electronic density</term><term>Electronic properties</term><term>Electronic structure</term><term>Engineering methods</term><term>Equilibrium hydrogen pressure</term><term>Expansion damage</term><term>Ferromagnetic hydrides</term><term>Field depolarization rates</term><term>Friction peak</term><term>Giant magnetostrictive refe</term><term>Gorsky relaxation</term><term>Group alloys</term><term>Hydride</term><term>Hydride batteries</term><term>Hydride battery</term><term>Hydride electrodes</term><term>Hydride storage containers</term><term>Hydriding</term><term>Hydriding behaviour</term><term>Hydriding kinetics</term><term>Hydriding reactions</term><term>Hydriding titanium</term><term>Hydrogen</term><term>Hydrogen absorption</term><term>Hydrogen absorption process</term><term>Hydrogen decrepitation</term><term>Hydrogen depth</term><term>Hydrogen diffusion</term><term>Hydrogen dissolution</term><term>Hydrogen equilibrium pressures</term><term>Hydrogen isotopes</term><term>Hydrogen jump geometry</term><term>Hydrogen mobility</term><term>Hydrogen motion</term><term>Hydrogen pairing</term><term>Hydrogen permeation</term><term>Hydrogen permeation characteristics</term><term>Hydrogen sites</term><term>Hydrogen solubility</term><term>Hydrogen sorption properties</term><term>Hydrogen storage</term><term>Hydrogen storage alloys</term><term>Hydrogenated</term><term>Hydrogenated clusters</term><term>Hyperstoichiometric alloys</term><term>Inelastic</term><term>Inelastic neutron</term><term>Inert gases</term><term>Initial activation</term><term>Intermetallic compound lanis</term><term>Intermetallics</term><term>Interstitial oxygen</term><term>Isothermal conditions</term><term>Isotope</term><term>Kinetic energy</term><term>Kinetic study</term><term>Kinetics</term><term>Lani</term><term>Lattice</term><term>Lattice defects</term><term>Lattice parameters</term><term>Laves phase alloys</term><term>Linear solution</term><term>Localized modes</term><term>Magnesium</term><term>Magnesium alloys</term><term>Magnesium interfaces</term><term>Magnetic behavior</term><term>Magnetic fields</term><term>Magnetic resonance study</term><term>Mass spectrometry</term><term>Mechanochemical reaction</term><term>Metal hydride</term><term>Metal hydride electrodes</term><term>Metal hydride powders</term><term>Metal hydrides</term><term>Metallic glass hydride</term><term>Metallic glasses</term><term>Metallic properties</term><term>Microencapsulated alloys</term><term>Microstructure</term><term>Msssbauer</term><term>Msssbauer spectroscopy</term><term>Msssbauer study</term><term>Muon</term><term>Neutron</term><term>Neutron compton</term><term>Neutron diffraction studies</term><term>Neutron vibrational spectroscopy</term><term>Nickel foils</term><term>Niobium</term><term>Nuclear reaction analysis</term><term>Organic compounds</term><term>Oxidized</term><term>Oxidized niobium surfaces</term><term>Palladium</term><term>Palladium foil cathode</term><term>Palladium hydrogen</term><term>Palladium nickel hydride</term><term>Partial replacement</term><term>Partial substitution</term><term>Permeation</term><term>Phase studies</term><term>Porous metal matrix hydride compacts</term><term>Positive muon</term><term>Power station</term><term>Pressure tubes</term><term>Pseudobinary alloy systems</term><term>Quantum diffusion</term><term>Radiolytic tritium decay</term><term>Rare earth dihydrides</term><term>Reaction kinetics</term><term>Reactor system</term><term>Resonance studies</term><term>Room temperature</term><term>Solid solution alloys</term><term>Solubility</term><term>Stoner parameter</term><term>Storage materials</term><term>Structural changes</term><term>Structural properties</term><term>Superlattices</term><term>Surface contaminations</term><term>Surface oxide layers</term><term>Surface reaction rates</term><term>Tantalum</term><term>Temperature tunnelling</term><term>Thermal conductivity</term><term>Thermal desorption spectra</term><term>Thermal desorption spectrum</term><term>Thermal energy storage</term><term>Thermal stability</term><term>Thermodynamic</term><term>Thermodynamic behaviour</term><term>Thermodynamic properties</term><term>Thermodynamic stability</term><term>Thin copper films</term><term>Thin films</term><term>Titanium</term><term>Total energy</term><term>Transition metal hydrides</term><term>Transition metals</term><term>Transmission electron microscopy study</term><term>Tritium</term><term>Vleck compound</term><term>Ybacuo films</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Alliage</term><term>Aluminium</term><term>Cobalt</term><term>Hydrogène</term><term>Magnésium</term><term>Tantale</term><term>Titane</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader></TEI><affiliations><list></list><tree></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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