Abstracts
Identifieur interne : 00DF26 ( Main/Curation ); précédent : 00DF25; suivant : 00DF27Abstracts
Auteurs :Source :
- Carbon [ 0008-6223 ] ; 1977.
Descripteurs français
English descriptors
- KwdEn :
- Acceptor compounds, Activation energies, Activation energy, Active carbons, Adsorption, Adsorption isotherms, Adsorptive properties, Aerospace corporation, Airco speer niagara, Almond shells, Anisotropic, Anisotropic carbons, Anomalous phonon drag effect, Artificial graphite, Atomic company, Atomic oxygen, Auger electron spectroscopy, Awre aldermaston, Baboon, Ball state university, Band model, Band theory, Basal planes, Basses tempiratures, Binder, Binding power, Biocompatibility, Biocompatible carbon, Bokros, Boron carbide addition, British columbia, Bulk density, Cabot corporation, Carbide, Carbon, Carbon blacks, Carbon carbon, Carbon characterization, Carbon composites, Carbon dioxide, Carbon fabric, Carbon fiber, Carbon fibers, Carbon fibre, Carbon fibres, Carbon films, Carbon formation, Carbon granule size, Carbon material, Carbon materials, Carbon products, Carbon products division, Carbon surface, Carbon surfaces, Carbon vapor, Carbonaceous mesophase, Carbonization, Catalytic activity, Central research laboratory, Centre, Ceramic engineering, Ceramics, Ceramics division, Charcoal cloth, Chemical changes, Chemical defence establishment, Chemical impurities, Chemical kinetics, Chemical laboratory, Chemisorption, Clinical findings, Coal pressure, Coefficient, Coke, Coke powder, College park, Composite properties, Compressive, Compressive strength, Compressive strengths, Compressive stress, Concentration profiles, Condensed structure, Constant energy surfaces, Crater surface, Crystallite, Crystallite orientation, Crystallite size, Current carbon, Defect, Density gradient technique, Dental implants, Development administration, Diamagnetic susceptibility, Diego, Different pitches, Diffusion coefficients, Dilution refrigerator, Dimensional changes, Disordered carbons, Edgewood arsenal, Effective debye parameter, Elastic constants, Elastic moduli, Electric field, Electric resistivity, Electrical conduction, Electrical properties, Electrical resistance, Electrical resistivity, Electrode, Electron acceptor, Electron microscopy, Electronic properties, Electrophoretic mobilities, Elementary iodine, Energy research, Exfoliated graphite, Experimental data, Experimental graphites, Experimental results, Fermi level, Fibre, Fibrous texture, Field dependence, Filament surface, Fine mosaic texture, Fitzer, Fracture, Fuel elements, Fuel particles, Galvanomagnetic, Galvanomagnetic effects, Galvanomagnetic properties, Gaseous mixtures, Gasification, Glassy, Glassy carbon, Gmbh, Good agreement, Grain structure, Granule diameter, Graphite, Graphite fiber, Graphite fiber nitrate, Graphite matrix, Graphite precursors, Graphitic materials, Graphitic order, Graphitization, Graphitizing temperatures, Great lakes research corporation, Halina kidawa, Hall effect, Hard coals, Haubold, Heat treatment, Heat treatment temperature, Heating rate, High pressure, High strength, Hokkaido university, Honda, Htgr fuel, Hulbert institute, Implant, Implant tissue interface, Impregnated, Impurity, Institut fiir chemische technik, Intercalation, Interface, Intermediate range, Iron oxide, Irradiation damage, Isotherm, Isotropic, Isotropic cokes, Janet smith, Karlsruhe, Kinetics, Kyushu, Lamellar, Lattice, Lawrence berkeley laboratory, Light microscopy, Loma linda, Loma linda university, Magnetic field, Magnetoresistance, Material sciences, Materials research, Materials science, Matrix, Maximum stress, Mechanical properties, Ment administration, Mesophase, Mesophase pitch, Mesophase spheres, Mesophase spherules, Microscopy, Microstructure, Mild oxidation, Minerals engineering, Modulus, Mold pressure, Molding pressure, Molecular arrangement, Molecular research division, Molecular structure, Nagoya, Nagoya university, Nasa lewis center, National research institute, Naval research laboratory, Naval surface weapons center, Negative magnetoresistance, Neutron, Neutron fluence, Neutron irradiation, Newcastle, Nihon university, Nitric acid, Nondestructive testing, Normal pressure, Olive stones, Optical microscopy, Optical texture, Other materials, Oxidation rates, Oxygen pressure, Parameter, Parma, Particle size, Pennsylvania state university, Petroleum, Petroleum cokes, Petroleum residue, Physical properties, Pitch coke, Poco graphite, Polycrystalline, Polycrystalline graphite, Polycrystalline graphites, Polymer, Polymeric substrates, Polyvinyl acetate, Pore, Porosity, Porous carbon, Posterior mandible, Precursor, Preferred orientation, Preferred orientation measurements, Preliminary results, Process parameters, Prototype development associates, Pyrocarbon, Pyrocarbon coatings, Pyrolite carbon, Pyrolysis pressure, Pyrolytic, Pyrolytic carbon, Pyrolytic graphite, Pyrolytic graphites, Quimica facultad, Quinoline insolubles, Raman, Raman spectra, Raman spectrum, Reactor wall, Recherche paul pascal, Rensselaer polytechnic institute, Research institute, Residual bromine, Resistivity, Resistivity ratio, Rheological properties, Ridge plant, Room temperature, Saran carbon, Several graphite oxides, Significant changes, Single crystal, Slurry oils, Small fraction, Soft carbon, Specific heat, Specific heat peaks, Stress ratios, Stressstrain model, Structural characteristics, Structural characterization, Structural defects, Structural detail, Subperiosteal implants, Sulfur, Sulfur content, Sulfur electrode, Surface area, Temperature range, Tensile properties, Tensile strength, Thermal conductivity, Thermal decomposition, Thermal expansion, Thermal properties, Thin carbon films, Tthis work, Tulane university, Twork supportedby, Tyne, Ultrasonic techniques, Union carbide, Union carbide corporation, Universitiit karlsruhe, University park, Vapor pressure, Various degrees, Vitreous, Vitreous carbon implants, Water vapour, West germany, Whittaker, Wide range, Yoshiko fujibayashi.
- Teeft :
- Acceptor compounds, Activation energies, Activation energy, Active carbons, Adsorption, Adsorption isotherms, Adsorptive properties, Aerospace corporation, Airco speer niagara, Almond shells, Anisotropic, Anisotropic carbons, Anomalous phonon drag effect, Artificial graphite, Atomic company, Atomic oxygen, Auger electron spectroscopy, Awre aldermaston, Baboon, Ball state university, Band model, Band theory, Basal planes, Basses tempiratures, Binder, Binding power, Biocompatibility, Biocompatible carbon, Bokros, Boron carbide addition, British columbia, Bulk density, Cabot corporation, Carbide, Carbon, Carbon blacks, Carbon carbon, Carbon characterization, Carbon composites, Carbon dioxide, Carbon fabric, Carbon fiber, Carbon fibers, Carbon fibre, Carbon fibres, Carbon films, Carbon formation, Carbon granule size, Carbon material, Carbon materials, Carbon products, Carbon products division, Carbon surface, Carbon surfaces, Carbon vapor, Carbonaceous mesophase, Carbonization, Catalytic activity, Central research laboratory, Centre, Ceramic engineering, Ceramics, Ceramics division, Charcoal cloth, Chemical changes, Chemical defence establishment, Chemical impurities, Chemical kinetics, Chemical laboratory, Chemisorption, Clinical findings, Coal pressure, Coefficient, Coke, Coke powder, College park, Composite properties, Compressive, Compressive strength, Compressive strengths, Compressive stress, Concentration profiles, Condensed structure, Constant energy surfaces, Crater surface, Crystallite, Crystallite orientation, Crystallite size, Current carbon, Defect, Density gradient technique, Dental implants, Development administration, Diamagnetic susceptibility, Diego, Different pitches, Diffusion coefficients, Dilution refrigerator, Dimensional changes, Disordered carbons, Edgewood arsenal, Effective debye parameter, Elastic constants, Elastic moduli, Electric field, Electric resistivity, Electrical conduction, Electrical properties, Electrical resistance, Electrical resistivity, Electrode, Electron acceptor, Electron microscopy, Electronic properties, Electrophoretic mobilities, Elementary iodine, Energy research, Exfoliated graphite, Experimental data, Experimental graphites, Experimental results, Fermi level, Fibre, Fibrous texture, Field dependence, Filament surface, Fine mosaic texture, Fitzer, Fracture, Fuel elements, Fuel particles, Galvanomagnetic, Galvanomagnetic effects, Galvanomagnetic properties, Gaseous mixtures, Gasification, Glassy, Glassy carbon, Gmbh, Good agreement, Grain structure, Granule diameter, Graphite, Graphite fiber, Graphite fiber nitrate, Graphite matrix, Graphite precursors, Graphitic materials, Graphitic order, Graphitization, Graphitizing temperatures, Great lakes research corporation, Halina kidawa, Hall effect, Hard coals, Haubold, Heat treatment, Heat treatment temperature, Heating rate, High pressure, High strength, Hokkaido university, Honda, Htgr fuel, Hulbert institute, Implant, Implant tissue interface, Impregnated, Impurity, Institut fiir chemische technik, Intercalation, Interface, Intermediate range, Iron oxide, Irradiation damage, Isotherm, Isotropic, Isotropic cokes, Janet smith, Karlsruhe, Kinetics, Kyushu, Lamellar, Lattice, Lawrence berkeley laboratory, Light microscopy, Loma linda, Loma linda university, Magnetic field, Magnetoresistance, Material sciences, Materials research, Materials science, Matrix, Maximum stress, Mechanical properties, Ment administration, Mesophase, Mesophase pitch, Mesophase spheres, Mesophase spherules, Microscopy, Microstructure, Mild oxidation, Minerals engineering, Modulus, Mold pressure, Molding pressure, Molecular arrangement, Molecular research division, Molecular structure, Nagoya, Nagoya university, Nasa lewis center, National research institute, Naval research laboratory, Naval surface weapons center, Negative magnetoresistance, Neutron, Neutron fluence, Neutron irradiation, Newcastle, Nihon university, Nitric acid, Nondestructive testing, Normal pressure, Olive stones, Optical microscopy, Optical texture, Other materials, Oxidation rates, Oxygen pressure, Parameter, Parma, Particle size, Pennsylvania state university, Petroleum, Petroleum cokes, Petroleum residue, Physical properties, Pitch coke, Poco graphite, Polycrystalline, Polycrystalline graphite, Polycrystalline graphites, Polymer, Polymeric substrates, Polyvinyl acetate, Pore, Porosity, Porous carbon, Posterior mandible, Precursor, Preferred orientation, Preferred orientation measurements, Preliminary results, Process parameters, Prototype development associates, Pyrocarbon, Pyrocarbon coatings, Pyrolite carbon, Pyrolysis pressure, Pyrolytic, Pyrolytic carbon, Pyrolytic graphite, Pyrolytic graphites, Quimica facultad, Quinoline insolubles, Raman, Raman spectra, Raman spectrum, Reactor wall, Recherche paul pascal, Rensselaer polytechnic institute, Research institute, Residual bromine, Resistivity, Resistivity ratio, Rheological properties, Ridge plant, Room temperature, Saran carbon, Several graphite oxides, Significant changes, Single crystal, Slurry oils, Small fraction, Soft carbon, Specific heat, Specific heat peaks, Stress ratios, Stressstrain model, Structural characteristics, Structural characterization, Structural defects, Structural detail, Subperiosteal implants, Sulfur, Sulfur content, Sulfur electrode, Surface area, Temperature range, Tensile properties, Tensile strength, Thermal conductivity, Thermal decomposition, Thermal expansion, Thermal properties, Thin carbon films, Tthis work, Tulane university, Twork supportedby, Tyne, Ultrasonic techniques, Union carbide, Union carbide corporation, Universitiit karlsruhe, University park, Vapor pressure, Various degrees, Vitreous, Vitreous carbon implants, Water vapour, West germany, Whittaker, Wide range, Yoshiko fujibayashi.
Url:
DOI: 10.1016/0008-6223(77)90331-1
Links toward previous steps (curation, corpus...)
- to stream Istex, to step Corpus: Pour aller vers cette notice dans l'étape Curation :000002
- to stream Istex, to step Curation: Pour aller vers cette notice dans l'étape Curation :000002
- to stream Istex, to step Checkpoint: Pour aller vers cette notice dans l'étape Curation :006758
- to stream Main, to step Merge: Pour aller vers cette notice dans l'étape Curation :00E830
Links to Exploration step
ISTEX:000A39C961A57A9BBBFA8CECC42F780613CECD48Le document en format XML
<record><TEI wicri:istexFullTextTei="biblStruct"><teiHeader><fileDesc><titleStmt><title>Abstracts</title>
</titleStmt>
<publicationStmt><idno type="wicri:source">ISTEX</idno>
<idno type="RBID">ISTEX:000A39C961A57A9BBBFA8CECC42F780613CECD48</idno>
<date when="1977" year="1977">1977</date>
<idno type="doi">10.1016/0008-6223(77)90331-1</idno>
<idno type="url">https://api.istex.fr/document/000A39C961A57A9BBBFA8CECC42F780613CECD48/fulltext/pdf</idno>
<idno type="wicri:Area/Istex/Corpus">000002</idno>
<idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Corpus" wicri:corpus="ISTEX">000002</idno>
<idno type="wicri:Area/Istex/Curation">000002</idno>
<idno type="wicri:Area/Istex/Checkpoint">006758</idno>
<idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Checkpoint">006758</idno>
<idno type="wicri:Area/Main/Merge">00E830</idno>
<idno type="wicri:Area/Main/Curation">00DF26</idno>
</publicationStmt>
<sourceDesc><biblStruct><analytic><title level="a">Abstracts</title>
</analytic>
<monogr></monogr>
<series><title level="j">Carbon</title>
<title level="j" type="abbrev">CARBON</title>
<idno type="ISSN">0008-6223</idno>
<imprint><publisher>ELSEVIER</publisher>
<date type="published" when="1977">1977</date>
<biblScope unit="volume">15</biblScope>
<biblScope unit="issue">6</biblScope>
<biblScope unit="page" from="411">411</biblScope>
<biblScope unit="page" to="439">439</biblScope>
</imprint>
<idno type="ISSN">0008-6223</idno>
</series>
</biblStruct>
</sourceDesc>
<seriesStmt><idno type="ISSN">0008-6223</idno>
</seriesStmt>
</fileDesc>
<profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Acceptor compounds</term>
<term>Activation energies</term>
<term>Activation energy</term>
<term>Active carbons</term>
<term>Adsorption</term>
<term>Adsorption isotherms</term>
<term>Adsorptive properties</term>
<term>Aerospace corporation</term>
<term>Airco speer niagara</term>
<term>Almond shells</term>
<term>Anisotropic</term>
<term>Anisotropic carbons</term>
<term>Anomalous phonon drag effect</term>
<term>Artificial graphite</term>
<term>Atomic company</term>
<term>Atomic oxygen</term>
<term>Auger electron spectroscopy</term>
<term>Awre aldermaston</term>
<term>Baboon</term>
<term>Ball state university</term>
<term>Band model</term>
<term>Band theory</term>
<term>Basal planes</term>
<term>Basses tempiratures</term>
<term>Binder</term>
<term>Binding power</term>
<term>Biocompatibility</term>
<term>Biocompatible carbon</term>
<term>Bokros</term>
<term>Boron carbide addition</term>
<term>British columbia</term>
<term>Bulk density</term>
<term>Cabot corporation</term>
<term>Carbide</term>
<term>Carbon</term>
<term>Carbon blacks</term>
<term>Carbon carbon</term>
<term>Carbon characterization</term>
<term>Carbon composites</term>
<term>Carbon dioxide</term>
<term>Carbon fabric</term>
<term>Carbon fiber</term>
<term>Carbon fibers</term>
<term>Carbon fibre</term>
<term>Carbon fibres</term>
<term>Carbon films</term>
<term>Carbon formation</term>
<term>Carbon granule size</term>
<term>Carbon material</term>
<term>Carbon materials</term>
<term>Carbon products</term>
<term>Carbon products division</term>
<term>Carbon surface</term>
<term>Carbon surfaces</term>
<term>Carbon vapor</term>
<term>Carbonaceous mesophase</term>
<term>Carbonization</term>
<term>Catalytic activity</term>
<term>Central research laboratory</term>
<term>Centre</term>
<term>Ceramic engineering</term>
<term>Ceramics</term>
<term>Ceramics division</term>
<term>Charcoal cloth</term>
<term>Chemical changes</term>
<term>Chemical defence establishment</term>
<term>Chemical impurities</term>
<term>Chemical kinetics</term>
<term>Chemical laboratory</term>
<term>Chemisorption</term>
<term>Clinical findings</term>
<term>Coal pressure</term>
<term>Coefficient</term>
<term>Coke</term>
<term>Coke powder</term>
<term>College park</term>
<term>Composite properties</term>
<term>Compressive</term>
<term>Compressive strength</term>
<term>Compressive strengths</term>
<term>Compressive stress</term>
<term>Concentration profiles</term>
<term>Condensed structure</term>
<term>Constant energy surfaces</term>
<term>Crater surface</term>
<term>Crystallite</term>
<term>Crystallite orientation</term>
<term>Crystallite size</term>
<term>Current carbon</term>
<term>Defect</term>
<term>Density gradient technique</term>
<term>Dental implants</term>
<term>Development administration</term>
<term>Diamagnetic susceptibility</term>
<term>Diego</term>
<term>Different pitches</term>
<term>Diffusion coefficients</term>
<term>Dilution refrigerator</term>
<term>Dimensional changes</term>
<term>Disordered carbons</term>
<term>Edgewood arsenal</term>
<term>Effective debye parameter</term>
<term>Elastic constants</term>
<term>Elastic moduli</term>
<term>Electric field</term>
<term>Electric resistivity</term>
<term>Electrical conduction</term>
<term>Electrical properties</term>
<term>Electrical resistance</term>
<term>Electrical resistivity</term>
<term>Electrode</term>
<term>Electron acceptor</term>
<term>Electron microscopy</term>
<term>Electronic properties</term>
<term>Electrophoretic mobilities</term>
<term>Elementary iodine</term>
<term>Energy research</term>
<term>Exfoliated graphite</term>
<term>Experimental data</term>
<term>Experimental graphites</term>
<term>Experimental results</term>
<term>Fermi level</term>
<term>Fibre</term>
<term>Fibrous texture</term>
<term>Field dependence</term>
<term>Filament surface</term>
<term>Fine mosaic texture</term>
<term>Fitzer</term>
<term>Fracture</term>
<term>Fuel elements</term>
<term>Fuel particles</term>
<term>Galvanomagnetic</term>
<term>Galvanomagnetic effects</term>
<term>Galvanomagnetic properties</term>
<term>Gaseous mixtures</term>
<term>Gasification</term>
<term>Glassy</term>
<term>Glassy carbon</term>
<term>Gmbh</term>
<term>Good agreement</term>
<term>Grain structure</term>
<term>Granule diameter</term>
<term>Graphite</term>
<term>Graphite fiber</term>
<term>Graphite fiber nitrate</term>
<term>Graphite matrix</term>
<term>Graphite precursors</term>
<term>Graphitic materials</term>
<term>Graphitic order</term>
<term>Graphitization</term>
<term>Graphitizing temperatures</term>
<term>Great lakes research corporation</term>
<term>Halina kidawa</term>
<term>Hall effect</term>
<term>Hard coals</term>
<term>Haubold</term>
<term>Heat treatment</term>
<term>Heat treatment temperature</term>
<term>Heating rate</term>
<term>High pressure</term>
<term>High strength</term>
<term>Hokkaido university</term>
<term>Honda</term>
<term>Htgr fuel</term>
<term>Hulbert institute</term>
<term>Implant</term>
<term>Implant tissue interface</term>
<term>Impregnated</term>
<term>Impurity</term>
<term>Institut fiir chemische technik</term>
<term>Intercalation</term>
<term>Interface</term>
<term>Intermediate range</term>
<term>Iron oxide</term>
<term>Irradiation damage</term>
<term>Isotherm</term>
<term>Isotropic</term>
<term>Isotropic cokes</term>
<term>Janet smith</term>
<term>Karlsruhe</term>
<term>Kinetics</term>
<term>Kyushu</term>
<term>Lamellar</term>
<term>Lattice</term>
<term>Lawrence berkeley laboratory</term>
<term>Light microscopy</term>
<term>Loma linda</term>
<term>Loma linda university</term>
<term>Magnetic field</term>
<term>Magnetoresistance</term>
<term>Material sciences</term>
<term>Materials research</term>
<term>Materials science</term>
<term>Matrix</term>
<term>Maximum stress</term>
<term>Mechanical properties</term>
<term>Ment administration</term>
<term>Mesophase</term>
<term>Mesophase pitch</term>
<term>Mesophase spheres</term>
<term>Mesophase spherules</term>
<term>Microscopy</term>
<term>Microstructure</term>
<term>Mild oxidation</term>
<term>Minerals engineering</term>
<term>Modulus</term>
<term>Mold pressure</term>
<term>Molding pressure</term>
<term>Molecular arrangement</term>
<term>Molecular research division</term>
<term>Molecular structure</term>
<term>Nagoya</term>
<term>Nagoya university</term>
<term>Nasa lewis center</term>
<term>National research institute</term>
<term>Naval research laboratory</term>
<term>Naval surface weapons center</term>
<term>Negative magnetoresistance</term>
<term>Neutron</term>
<term>Neutron fluence</term>
<term>Neutron irradiation</term>
<term>Newcastle</term>
<term>Nihon university</term>
<term>Nitric acid</term>
<term>Nondestructive testing</term>
<term>Normal pressure</term>
<term>Olive stones</term>
<term>Optical microscopy</term>
<term>Optical texture</term>
<term>Other materials</term>
<term>Oxidation rates</term>
<term>Oxygen pressure</term>
<term>Parameter</term>
<term>Parma</term>
<term>Particle size</term>
<term>Pennsylvania state university</term>
<term>Petroleum</term>
<term>Petroleum cokes</term>
<term>Petroleum residue</term>
<term>Physical properties</term>
<term>Pitch coke</term>
<term>Poco graphite</term>
<term>Polycrystalline</term>
<term>Polycrystalline graphite</term>
<term>Polycrystalline graphites</term>
<term>Polymer</term>
<term>Polymeric substrates</term>
<term>Polyvinyl acetate</term>
<term>Pore</term>
<term>Porosity</term>
<term>Porous carbon</term>
<term>Posterior mandible</term>
<term>Precursor</term>
<term>Preferred orientation</term>
<term>Preferred orientation measurements</term>
<term>Preliminary results</term>
<term>Process parameters</term>
<term>Prototype development associates</term>
<term>Pyrocarbon</term>
<term>Pyrocarbon coatings</term>
<term>Pyrolite carbon</term>
<term>Pyrolysis pressure</term>
<term>Pyrolytic</term>
<term>Pyrolytic carbon</term>
<term>Pyrolytic graphite</term>
<term>Pyrolytic graphites</term>
<term>Quimica facultad</term>
<term>Quinoline insolubles</term>
<term>Raman</term>
<term>Raman spectra</term>
<term>Raman spectrum</term>
<term>Reactor wall</term>
<term>Recherche paul pascal</term>
<term>Rensselaer polytechnic institute</term>
<term>Research institute</term>
<term>Residual bromine</term>
<term>Resistivity</term>
<term>Resistivity ratio</term>
<term>Rheological properties</term>
<term>Ridge plant</term>
<term>Room temperature</term>
<term>Saran carbon</term>
<term>Several graphite oxides</term>
<term>Significant changes</term>
<term>Single crystal</term>
<term>Slurry oils</term>
<term>Small fraction</term>
<term>Soft carbon</term>
<term>Specific heat</term>
<term>Specific heat peaks</term>
<term>Stress ratios</term>
<term>Stressstrain model</term>
<term>Structural characteristics</term>
<term>Structural characterization</term>
<term>Structural defects</term>
<term>Structural detail</term>
<term>Subperiosteal implants</term>
<term>Sulfur</term>
<term>Sulfur content</term>
<term>Sulfur electrode</term>
<term>Surface area</term>
<term>Temperature range</term>
<term>Tensile properties</term>
<term>Tensile strength</term>
<term>Thermal conductivity</term>
<term>Thermal decomposition</term>
<term>Thermal expansion</term>
<term>Thermal properties</term>
<term>Thin carbon films</term>
<term>Tthis work</term>
<term>Tulane university</term>
<term>Twork supportedby</term>
<term>Tyne</term>
<term>Ultrasonic techniques</term>
<term>Union carbide</term>
<term>Union carbide corporation</term>
<term>Universitiit karlsruhe</term>
<term>University park</term>
<term>Vapor pressure</term>
<term>Various degrees</term>
<term>Vitreous</term>
<term>Vitreous carbon implants</term>
<term>Water vapour</term>
<term>West germany</term>
<term>Whittaker</term>
<term>Wide range</term>
<term>Yoshiko fujibayashi</term>
</keywords>
<keywords scheme="Teeft" xml:lang="en"><term>Acceptor compounds</term>
<term>Activation energies</term>
<term>Activation energy</term>
<term>Active carbons</term>
<term>Adsorption</term>
<term>Adsorption isotherms</term>
<term>Adsorptive properties</term>
<term>Aerospace corporation</term>
<term>Airco speer niagara</term>
<term>Almond shells</term>
<term>Anisotropic</term>
<term>Anisotropic carbons</term>
<term>Anomalous phonon drag effect</term>
<term>Artificial graphite</term>
<term>Atomic company</term>
<term>Atomic oxygen</term>
<term>Auger electron spectroscopy</term>
<term>Awre aldermaston</term>
<term>Baboon</term>
<term>Ball state university</term>
<term>Band model</term>
<term>Band theory</term>
<term>Basal planes</term>
<term>Basses tempiratures</term>
<term>Binder</term>
<term>Binding power</term>
<term>Biocompatibility</term>
<term>Biocompatible carbon</term>
<term>Bokros</term>
<term>Boron carbide addition</term>
<term>British columbia</term>
<term>Bulk density</term>
<term>Cabot corporation</term>
<term>Carbide</term>
<term>Carbon</term>
<term>Carbon blacks</term>
<term>Carbon carbon</term>
<term>Carbon characterization</term>
<term>Carbon composites</term>
<term>Carbon dioxide</term>
<term>Carbon fabric</term>
<term>Carbon fiber</term>
<term>Carbon fibers</term>
<term>Carbon fibre</term>
<term>Carbon fibres</term>
<term>Carbon films</term>
<term>Carbon formation</term>
<term>Carbon granule size</term>
<term>Carbon material</term>
<term>Carbon materials</term>
<term>Carbon products</term>
<term>Carbon products division</term>
<term>Carbon surface</term>
<term>Carbon surfaces</term>
<term>Carbon vapor</term>
<term>Carbonaceous mesophase</term>
<term>Carbonization</term>
<term>Catalytic activity</term>
<term>Central research laboratory</term>
<term>Centre</term>
<term>Ceramic engineering</term>
<term>Ceramics</term>
<term>Ceramics division</term>
<term>Charcoal cloth</term>
<term>Chemical changes</term>
<term>Chemical defence establishment</term>
<term>Chemical impurities</term>
<term>Chemical kinetics</term>
<term>Chemical laboratory</term>
<term>Chemisorption</term>
<term>Clinical findings</term>
<term>Coal pressure</term>
<term>Coefficient</term>
<term>Coke</term>
<term>Coke powder</term>
<term>College park</term>
<term>Composite properties</term>
<term>Compressive</term>
<term>Compressive strength</term>
<term>Compressive strengths</term>
<term>Compressive stress</term>
<term>Concentration profiles</term>
<term>Condensed structure</term>
<term>Constant energy surfaces</term>
<term>Crater surface</term>
<term>Crystallite</term>
<term>Crystallite orientation</term>
<term>Crystallite size</term>
<term>Current carbon</term>
<term>Defect</term>
<term>Density gradient technique</term>
<term>Dental implants</term>
<term>Development administration</term>
<term>Diamagnetic susceptibility</term>
<term>Diego</term>
<term>Different pitches</term>
<term>Diffusion coefficients</term>
<term>Dilution refrigerator</term>
<term>Dimensional changes</term>
<term>Disordered carbons</term>
<term>Edgewood arsenal</term>
<term>Effective debye parameter</term>
<term>Elastic constants</term>
<term>Elastic moduli</term>
<term>Electric field</term>
<term>Electric resistivity</term>
<term>Electrical conduction</term>
<term>Electrical properties</term>
<term>Electrical resistance</term>
<term>Electrical resistivity</term>
<term>Electrode</term>
<term>Electron acceptor</term>
<term>Electron microscopy</term>
<term>Electronic properties</term>
<term>Electrophoretic mobilities</term>
<term>Elementary iodine</term>
<term>Energy research</term>
<term>Exfoliated graphite</term>
<term>Experimental data</term>
<term>Experimental graphites</term>
<term>Experimental results</term>
<term>Fermi level</term>
<term>Fibre</term>
<term>Fibrous texture</term>
<term>Field dependence</term>
<term>Filament surface</term>
<term>Fine mosaic texture</term>
<term>Fitzer</term>
<term>Fracture</term>
<term>Fuel elements</term>
<term>Fuel particles</term>
<term>Galvanomagnetic</term>
<term>Galvanomagnetic effects</term>
<term>Galvanomagnetic properties</term>
<term>Gaseous mixtures</term>
<term>Gasification</term>
<term>Glassy</term>
<term>Glassy carbon</term>
<term>Gmbh</term>
<term>Good agreement</term>
<term>Grain structure</term>
<term>Granule diameter</term>
<term>Graphite</term>
<term>Graphite fiber</term>
<term>Graphite fiber nitrate</term>
<term>Graphite matrix</term>
<term>Graphite precursors</term>
<term>Graphitic materials</term>
<term>Graphitic order</term>
<term>Graphitization</term>
<term>Graphitizing temperatures</term>
<term>Great lakes research corporation</term>
<term>Halina kidawa</term>
<term>Hall effect</term>
<term>Hard coals</term>
<term>Haubold</term>
<term>Heat treatment</term>
<term>Heat treatment temperature</term>
<term>Heating rate</term>
<term>High pressure</term>
<term>High strength</term>
<term>Hokkaido university</term>
<term>Honda</term>
<term>Htgr fuel</term>
<term>Hulbert institute</term>
<term>Implant</term>
<term>Implant tissue interface</term>
<term>Impregnated</term>
<term>Impurity</term>
<term>Institut fiir chemische technik</term>
<term>Intercalation</term>
<term>Interface</term>
<term>Intermediate range</term>
<term>Iron oxide</term>
<term>Irradiation damage</term>
<term>Isotherm</term>
<term>Isotropic</term>
<term>Isotropic cokes</term>
<term>Janet smith</term>
<term>Karlsruhe</term>
<term>Kinetics</term>
<term>Kyushu</term>
<term>Lamellar</term>
<term>Lattice</term>
<term>Lawrence berkeley laboratory</term>
<term>Light microscopy</term>
<term>Loma linda</term>
<term>Loma linda university</term>
<term>Magnetic field</term>
<term>Magnetoresistance</term>
<term>Material sciences</term>
<term>Materials research</term>
<term>Materials science</term>
<term>Matrix</term>
<term>Maximum stress</term>
<term>Mechanical properties</term>
<term>Ment administration</term>
<term>Mesophase</term>
<term>Mesophase pitch</term>
<term>Mesophase spheres</term>
<term>Mesophase spherules</term>
<term>Microscopy</term>
<term>Microstructure</term>
<term>Mild oxidation</term>
<term>Minerals engineering</term>
<term>Modulus</term>
<term>Mold pressure</term>
<term>Molding pressure</term>
<term>Molecular arrangement</term>
<term>Molecular research division</term>
<term>Molecular structure</term>
<term>Nagoya</term>
<term>Nagoya university</term>
<term>Nasa lewis center</term>
<term>National research institute</term>
<term>Naval research laboratory</term>
<term>Naval surface weapons center</term>
<term>Negative magnetoresistance</term>
<term>Neutron</term>
<term>Neutron fluence</term>
<term>Neutron irradiation</term>
<term>Newcastle</term>
<term>Nihon university</term>
<term>Nitric acid</term>
<term>Nondestructive testing</term>
<term>Normal pressure</term>
<term>Olive stones</term>
<term>Optical microscopy</term>
<term>Optical texture</term>
<term>Other materials</term>
<term>Oxidation rates</term>
<term>Oxygen pressure</term>
<term>Parameter</term>
<term>Parma</term>
<term>Particle size</term>
<term>Pennsylvania state university</term>
<term>Petroleum</term>
<term>Petroleum cokes</term>
<term>Petroleum residue</term>
<term>Physical properties</term>
<term>Pitch coke</term>
<term>Poco graphite</term>
<term>Polycrystalline</term>
<term>Polycrystalline graphite</term>
<term>Polycrystalline graphites</term>
<term>Polymer</term>
<term>Polymeric substrates</term>
<term>Polyvinyl acetate</term>
<term>Pore</term>
<term>Porosity</term>
<term>Porous carbon</term>
<term>Posterior mandible</term>
<term>Precursor</term>
<term>Preferred orientation</term>
<term>Preferred orientation measurements</term>
<term>Preliminary results</term>
<term>Process parameters</term>
<term>Prototype development associates</term>
<term>Pyrocarbon</term>
<term>Pyrocarbon coatings</term>
<term>Pyrolite carbon</term>
<term>Pyrolysis pressure</term>
<term>Pyrolytic</term>
<term>Pyrolytic carbon</term>
<term>Pyrolytic graphite</term>
<term>Pyrolytic graphites</term>
<term>Quimica facultad</term>
<term>Quinoline insolubles</term>
<term>Raman</term>
<term>Raman spectra</term>
<term>Raman spectrum</term>
<term>Reactor wall</term>
<term>Recherche paul pascal</term>
<term>Rensselaer polytechnic institute</term>
<term>Research institute</term>
<term>Residual bromine</term>
<term>Resistivity</term>
<term>Resistivity ratio</term>
<term>Rheological properties</term>
<term>Ridge plant</term>
<term>Room temperature</term>
<term>Saran carbon</term>
<term>Several graphite oxides</term>
<term>Significant changes</term>
<term>Single crystal</term>
<term>Slurry oils</term>
<term>Small fraction</term>
<term>Soft carbon</term>
<term>Specific heat</term>
<term>Specific heat peaks</term>
<term>Stress ratios</term>
<term>Stressstrain model</term>
<term>Structural characteristics</term>
<term>Structural characterization</term>
<term>Structural defects</term>
<term>Structural detail</term>
<term>Subperiosteal implants</term>
<term>Sulfur</term>
<term>Sulfur content</term>
<term>Sulfur electrode</term>
<term>Surface area</term>
<term>Temperature range</term>
<term>Tensile properties</term>
<term>Tensile strength</term>
<term>Thermal conductivity</term>
<term>Thermal decomposition</term>
<term>Thermal expansion</term>
<term>Thermal properties</term>
<term>Thin carbon films</term>
<term>Tthis work</term>
<term>Tulane university</term>
<term>Twork supportedby</term>
<term>Tyne</term>
<term>Ultrasonic techniques</term>
<term>Union carbide</term>
<term>Union carbide corporation</term>
<term>Universitiit karlsruhe</term>
<term>University park</term>
<term>Vapor pressure</term>
<term>Various degrees</term>
<term>Vitreous</term>
<term>Vitreous carbon implants</term>
<term>Water vapour</term>
<term>West germany</term>
<term>Whittaker</term>
<term>Wide range</term>
<term>Yoshiko fujibayashi</term>
</keywords>
<keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Carbone</term>
<term>Céramique</term>
<term>Coke</term>
<term>Recherche énergétique</term>
<term>Pétrole</term>
<term>Polymère</term>
</keywords>
</textClass>
<langUsage><language ident="en">en</language>
</langUsage>
</profileDesc>
</teiHeader>
</TEI>
</record>
Pour manipuler ce document sous Unix (Dilib)
EXPLOR_STEP=$WICRI_ROOT/Wicri/Santé/explor/EdenteV2/Data/Main/Curation
HfdSelect -h $EXPLOR_STEP/biblio.hfd -nk 00DF26 | SxmlIndent | more
Ou
HfdSelect -h $EXPLOR_AREA/Data/Main/Curation/biblio.hfd -nk 00DF26 | SxmlIndent | more
Pour mettre un lien sur cette page dans le réseau Wicri
{{Explor lien |wiki= Wicri/Santé |area= EdenteV2 |flux= Main |étape= Curation |type= RBID |clé= ISTEX:000A39C961A57A9BBBFA8CECC42F780613CECD48 |texte= Abstracts }}
This area was generated with Dilib version V0.6.32. |