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Publication DateSolar Energy Materials and Solar Cells, ISSN 0927-0248, 09/2017, Volume 169, pp. 313 - 319
Titanium diboride (TiB ) is a low-density refractory material belonging to the family of ultra-high temperature ceramics (UHTCs). This paper reports on the...
Borides | TiB2 | Solar absorbers | Self-propagating High-temperature Synthesis (SHS) | Spark Plasma Sintering (SPS) | Optical properties | TiB | COMPOSITE POWDERS | PHYSICS, APPLIED | SINTERING AID | ENERGY & FUELS | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | MONOLITHIC TIB2 CERAMICS | OPTICAL-PROPERTIES | HOT-PRESSED TIB2 | MECHANICAL-PROPERTIES | HIGH-TEMPERATURE CERAMICS | TANTALUM DIBORIDES | ZIRCONIUM | Powders | Refractories industry | Solar power plants | Sintering | Ceramics | Ceramic materials | Corrosion and anti-corrosives
Borides | TiB2 | Solar absorbers | Self-propagating High-temperature Synthesis (SHS) | Spark Plasma Sintering (SPS) | Optical properties | TiB | COMPOSITE POWDERS | PHYSICS, APPLIED | SINTERING AID | ENERGY & FUELS | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | MONOLITHIC TIB2 CERAMICS | OPTICAL-PROPERTIES | HOT-PRESSED TIB2 | MECHANICAL-PROPERTIES | HIGH-TEMPERATURE CERAMICS | TANTALUM DIBORIDES | ZIRCONIUM | Powders | Refractories industry | Solar power plants | Sintering | Ceramics | Ceramic materials | Corrosion and anti-corrosives
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Loading RightsJournal of the American Ceramic Society, ISSN 0002-7820, 05/2007, Volume 90, Issue 5, pp. 1347 - 1364
This paper reviews the crystal chemistry, synthesis, densification, microstructure, mechanical properties, and oxidation behavior of zirconium diboride (ZrB2)...
HIGH-TEMPERATURE CERAMICS | SILICON-CARBIDE CERAMICS | BORON-CARBIDE | FIBROUS MONOLITHIC CERAMICS | TITANIUM DIBORIDE | CRACK DEFLECTION PROCESSES | ELASTIC-CONSTANTS | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | THERMAL STRESS RESISTANCE | IN-SITU SYNTHESIS | Thermal expansion | Zirconium | Silicon carbide | Synthesis | Hafnium | Reaction kinetics | Oxidation | Ceramics
HIGH-TEMPERATURE CERAMICS | SILICON-CARBIDE CERAMICS | BORON-CARBIDE | FIBROUS MONOLITHIC CERAMICS | TITANIUM DIBORIDE | CRACK DEFLECTION PROCESSES | ELASTIC-CONSTANTS | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | THERMAL STRESS RESISTANCE | IN-SITU SYNTHESIS | Thermal expansion | Zirconium | Silicon carbide | Synthesis | Hafnium | Reaction kinetics | Oxidation | Ceramics
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Loading Rights1981, Volume 8537., ii, 30
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Journal of the American Ceramic Society, ISSN 0002-7820, 02/2018, Volume 101, Issue 2, pp. 497 - 501
Triplex particulate composites composed of boride and carbide ceramics were found to have high strength, hardness, and fracture toughness values. Two...
super‐hard | titanium diboride | silicon carbide | super‐strong | boron carbide | super-strong | super-hard | EVOLUTION | TEMPERATURE | COMPOSITES | MATERIALS SCIENCE, CERAMICS | MICROSTRUCTURE | Powders | Silicon carbide | Boron nitride | Mechanical properties | Silicon | Ceramics | Hardness | Ceramic materials | Ceramic powders | Diamond pyramid hardness | Particulate composites | Partially stabilized zirconia | Titanium diboride | Indentation | Boron carbide | Fracture toughness | Yttrium oxide | Zirconium dioxide | Strength
super‐hard | titanium diboride | silicon carbide | super‐strong | boron carbide | super-strong | super-hard | EVOLUTION | TEMPERATURE | COMPOSITES | MATERIALS SCIENCE, CERAMICS | MICROSTRUCTURE | Powders | Silicon carbide | Boron nitride | Mechanical properties | Silicon | Ceramics | Hardness | Ceramic materials | Ceramic powders | Diamond pyramid hardness | Particulate composites | Partially stabilized zirconia | Titanium diboride | Indentation | Boron carbide | Fracture toughness | Yttrium oxide | Zirconium dioxide | Strength
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Loading RightsJournal of the European Ceramic Society, ISSN 0955-2219, 12/2013, Volume 33, Issue 15-16, pp. 2943 - 2951
The effect of TiB content on mechanical properties of silicon carbide–titanium diboride ceramic composites was studied. The hardness of the ceramics decreased...
Mechanical properties | Particulate composite | Silicon carbide | Titanium diboride | Armor | THERMAL RESIDUAL-STRESSES | FRACTURE-TOUGHNESS | SIC-TIB2 COMPOSITES | BRITTLE MATERIALS | WC-CO | ELASTIC PROPERTIES | CRACK-GROWTH-RESISTANCE | MATERIALS SCIENCE, CERAMICS | MICROCRACKING | R-CURVE BEHAVIOR | ZRB2-SIC COMPOSITES | Composite materials industry | Analysis | Silicon | Ceramics | Hardness | Ceramic materials
Mechanical properties | Particulate composite | Silicon carbide | Titanium diboride | Armor | THERMAL RESIDUAL-STRESSES | FRACTURE-TOUGHNESS | SIC-TIB2 COMPOSITES | BRITTLE MATERIALS | WC-CO | ELASTIC PROPERTIES | CRACK-GROWTH-RESISTANCE | MATERIALS SCIENCE, CERAMICS | MICROCRACKING | R-CURVE BEHAVIOR | ZRB2-SIC COMPOSITES | Composite materials industry | Analysis | Silicon | Ceramics | Hardness | Ceramic materials
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Electrochemical Water Oxidation in Acidic Solution Using Titanium Diboride (TiB2) Catalyst
ChemCatChem, ISSN 1867-3880, 08/2019, Volume 11, Issue 16, pp. 3877 - 3881
Electrochemical water oxidation is an important anodic process necessary to support many cathodic fuel forming processes. Inexpensive materials capable of...
renewable energy | catalysis | Water-splitting | borides | electrochemistry | Water | Electrochemistry | Electrochemical reactions | Oxidation-reduction reaction | Electrolytes | Catalysis
renewable energy | catalysis | Water-splitting | borides | electrochemistry | Water | Electrochemistry | Electrochemical reactions | Oxidation-reduction reaction | Electrolytes | Catalysis
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Loading RightsSolar Energy Materials and Solar Cells, ISSN 0927-0248, 09/2017, Volume 169, p. 313
Titanium diboride (TiB2) is a low-density refractory material belonging to the family of ultra-high temperature ceramics (UHTCs). This paper reports on the...
Absorbers | High temperature | Ceramics | Titanium diboride | Solar heating | Ultrahigh temperature | Spark plasma sintering | Self-propagating synthesis | Optical properties | Titanium | Plasma sintering | Microstructure | Reflectance
Absorbers | High temperature | Ceramics | Titanium diboride | Solar heating | Ultrahigh temperature | Spark plasma sintering | Self-propagating synthesis | Optical properties | Titanium | Plasma sintering | Microstructure | Reflectance
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Journal of the American Ceramic Society, ISSN 0002-7820, 05/2017, Volume 100, Issue 5, pp. 2266 - 2272
Phase pure titanium diboride (TiB2) powder of 100‐200 nm was synthesized from TiO2 and B2O3 using a molten‐salt‐assisted magnesiothermic reduction technique....
titanium diboride | titanium dioxide | molten salt synthesis | low temperature | reduction | Molten salt synthesis | Reduction | Titanium diboride | Titanium dioxide | Low temperature | TIB2 POWDERS | ROUTE | MELT | BOROTHERMAL REDUCTION | MATERIALS SCIENCE, CERAMICS | SOLUBILITY | MAGNESIUM | VOLUME COMBUSTION | TIO2 | Powders | Salt | Particle size | Low temperature physics | Molten salts | Titanium | Ceramics | Particle shape | Chemical synthesis | Reaction mechanisms
titanium diboride | titanium dioxide | molten salt synthesis | low temperature | reduction | Molten salt synthesis | Reduction | Titanium diboride | Titanium dioxide | Low temperature | TIB2 POWDERS | ROUTE | MELT | BOROTHERMAL REDUCTION | MATERIALS SCIENCE, CERAMICS | SOLUBILITY | MAGNESIUM | VOLUME COMBUSTION | TIO2 | Powders | Salt | Particle size | Low temperature physics | Molten salts | Titanium | Ceramics | Particle shape | Chemical synthesis | Reaction mechanisms
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Loading RightsJournal of the American Ceramic Society, ISSN 0002-7820, 05/2006, Volume 89, Issue 5, pp. 1544 - 1550
Zirconium diboride (ZrB2) was densified (>98% relative density) at temperatures as low as 1850°C by pressureless sintering. Sintering was activated by removing...
OXIDATION | ZRB2 | TITANIUM DIBORIDE | COMPOSITES | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | CERAMICS | Zirconium | Densification | Diffraction | Heating | Surface area | Zirconium dioxide | Density | Sintering (powder metallurgy)
OXIDATION | ZRB2 | TITANIUM DIBORIDE | COMPOSITES | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | CERAMICS | Zirconium | Densification | Diffraction | Heating | Surface area | Zirconium dioxide | Density | Sintering (powder metallurgy)
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Loading RightsJournal of Physics: Condensed Matter, ISSN 0953-8984, 10/2008, Volume 20, Issue 41, pp. 415218 - 415218 (9)
We have performed accurate ab initio total energy calculations using the full-potential linearized augmented plane-wave (FP-LAPW) method with the generalized...
BORIDES | PHYSICS, CONDENSED MATTER | THERMODYNAMIC PROPERTIES | SINGLE-CRYSTALS | CONSTANTS | MAGNESIUM DIBORIDE | SUPERCONDUCTING MGB2 | AB-INITIO | TITANIUM DIBORIDE | BAND-STRUCTURE | ELECTRONIC-STRUCTURE | Physics - Materials Science
BORIDES | PHYSICS, CONDENSED MATTER | THERMODYNAMIC PROPERTIES | SINGLE-CRYSTALS | CONSTANTS | MAGNESIUM DIBORIDE | SUPERCONDUCTING MGB2 | AB-INITIO | TITANIUM DIBORIDE | BAND-STRUCTURE | ELECTRONIC-STRUCTURE | Physics - Materials Science
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Loading RightsJournal of Research of the National Institute of Standards and Technology, ISSN 1044-677X, 2000, Volume 105, Issue 5, pp. 709 - 720
The physical, mechanical, and thermal properties of polycrystalline TiB2 are examined with an emphasis on the significant dependence of the properties on the...
Thermal properties | Mechanical properties | Titanium diboride | Evaluated data | Physical properties | Material properties | physical properties | titanium diboride | TIB2 | PHYSICS, APPLIED | BEHAVIOR | STRENGTH | COMPOSITES | ADDITIVES | MECHANICAL-PROPERTIES | mechanical properties | ALUMINA | INSTRUMENTS & INSTRUMENTATION | material properties | thermal properties | NICKEL | SINTERABILITY | evaluated data | CERAMICS | Titanium compounds | Polycrystalline semiconductors | Research
Thermal properties | Mechanical properties | Titanium diboride | Evaluated data | Physical properties | Material properties | physical properties | titanium diboride | TIB2 | PHYSICS, APPLIED | BEHAVIOR | STRENGTH | COMPOSITES | ADDITIVES | MECHANICAL-PROPERTIES | mechanical properties | ALUMINA | INSTRUMENTS & INSTRUMENTATION | material properties | thermal properties | NICKEL | SINTERABILITY | evaluated data | CERAMICS | Titanium compounds | Polycrystalline semiconductors | Research
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Loading RightsJournal of the European Ceramic Society, ISSN 0955-2219, 02/2018, Volume 38, Issue 2, pp. 371 - 389
This is the first comprehensive review on inherent anisotropic features of transition metal diboride (MB ) and their implementation for tailoring the...
Self-reinforced | Transition metal diborides | Microstructure tailoring | Texture | UHTCs | FLOATING-ZONE METHOD | ZRB2 SINGLE-CRYSTALS | PLATELET-REINFORCED CERAMICS | ZIRCONIUM DIBORIDE | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | ZRB2-ZRC-ZR CERMETS | BORON-CARBIDE | SILICON-NITRIDE | TITANIUM DIBORIDE | IN-SITU SYNTHESIS | Grain boundaries | Transition metal compounds | Anisotropy | Crystals | Ceramics | Structure | Ceramic materials
Self-reinforced | Transition metal diborides | Microstructure tailoring | Texture | UHTCs | FLOATING-ZONE METHOD | ZRB2 SINGLE-CRYSTALS | PLATELET-REINFORCED CERAMICS | ZIRCONIUM DIBORIDE | MECHANICAL-PROPERTIES | MATERIALS SCIENCE, CERAMICS | ZRB2-ZRC-ZR CERMETS | BORON-CARBIDE | SILICON-NITRIDE | TITANIUM DIBORIDE | IN-SITU SYNTHESIS | Grain boundaries | Transition metal compounds | Anisotropy | Crystals | Ceramics | Structure | Ceramic materials
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Loading RightsComputational Materials Science, ISSN 0927-0256, 2006, Volume 35, Issue 2, pp. 134 - 150
First principles computational calculations of anisotropic elastic constants of titanium diboride, TiB , were performed using the implementations of the...
CRYSTALS | ELEMENTS | MOLECULAR-ORBITAL METHODS | MATERIALS SCIENCE, MULTIDISCIPLINARY | MANTLE | Titanium | Chemical properties | Structure | Anisotropy | Analysis | Crystals
CRYSTALS | ELEMENTS | MOLECULAR-ORBITAL METHODS | MATERIALS SCIENCE, MULTIDISCIPLINARY | MANTLE | Titanium | Chemical properties | Structure | Anisotropy | Analysis | Crystals
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Loading RightsJournal of Materials Research, ISSN 0884-2914, 09/2016, Volume 31, Issue 18, pp. 2757 - 2772
This paper critically evaluates methods used to synthesize boride compounds with emphasis on diborides of the early transition metals. The earliest reports of...
ceramic | boron | compound | HIGH-TEMPERATURE CERAMICS | TUNGSTEN CARBIDE ADDITIONS | THERMAL-PROPERTIES | MATERIALS SCIENCE, MULTIDISCIPLINARY | ELECTRICAL-TRANSPORT PROPERTIES | ZIRCONIUM DIBORIDE | SOLID-STATE METATHESIS | TITANIUM BORIDE TIB | MECHANICAL-PROPERTIES | IN-SITU SYNTHESIS | IMPROVED OXIDATION RESISTANCE | Studies | Boron | Materials research | Chemical synthesis | Analysis
ceramic | boron | compound | HIGH-TEMPERATURE CERAMICS | TUNGSTEN CARBIDE ADDITIONS | THERMAL-PROPERTIES | MATERIALS SCIENCE, MULTIDISCIPLINARY | ELECTRICAL-TRANSPORT PROPERTIES | ZIRCONIUM DIBORIDE | SOLID-STATE METATHESIS | TITANIUM BORIDE TIB | MECHANICAL-PROPERTIES | IN-SITU SYNTHESIS | IMPROVED OXIDATION RESISTANCE | Studies | Boron | Materials research | Chemical synthesis | Analysis
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