Table of Contents
- INTRODUCTION
- STUDY GOALS AND OBJECTIVES
- CONTRIBUTIONS OF THE STUDY
- FORMAT AND SCOPE
- METHODOLOGY AND INFORMATION SOURCES
- INTENDED AUDIENCE
- ANALYST CREDENTIALS
- RELATED BCC REPORTS
- DISCLAIMER
- EXECUTIVE SUMMARY
- Summary Table:
- U.S. MARKETS FOR ADVANCED CERAMIC AND NANOSIZED CERAMIC POWDERS, THROUGH
2011 (MILLIONS)
- Summary Figure:
- U.S. MARKETS FOR ADVANCED CERAMIC AND NANOSIZED CERAMIC POWDER MARKETS,
2006 AND 2011 (%)
- INDUSTRY OVERVIEW
- INDUSTRY OVERVIEW
- Table 1 U.S. MARKETS FOR ADVANCED CERAMIC POWDERS ACCORDING TO TYPES AND
NANOSIZED CERAMIC POWDERS, THROUGH 2011 (MILLION LBS/$ MILLION)
- Figure 1 MARKET SHARE OF THE U.S. ADVANCED CERAMIC POWDERS ACCORDING TO
TYPES AND NANOSIZED CERAMIC POWDERS, 2006 AND 2011
- Figure 1 (CONTINUED)
- Table 2 U.S. MARKETS AND MARKET SHARES FOR ADVANCED CERAMIC POWDERS AND
NANOCERAMIC POWDERS ACCORDING TO APPLICATIONS, THROUGH 2011 ($ MILLIONS/%)
- Figure 2 MARKET SHARES FOR ADVANCED CERAMIC POWDERS AND NANOCERAMIC
POWDERS ACCORDING TO APPLICATIONS, 2006 AND 2011
- TECHNOLOGY OVERVIEW OF ADVANCED CERAMIC POWDERS
- POWDER TYPES
- Table 3 COMMONLY USED ADVANCED CERAMIC MATERIAL FAMILIES
- POWDER SYNTHESIS TECHNIQUES
- Table 4 PROCESS STEPS TO PRODUCE β-SIC VIA CARBOTHERMAL REDUCTION
- VAPOR-PHASE REACTIONS
- Thermal Decomposition
- CVD Process
- Figure 3 SCHEMATIC DIAGRAM OF THERMAL REACTOR SYSTEM FOR PRODUCING
CERAMIC POWDERS BY CVD
- Table 5 PLASMA SYNTHESIS OF CERAMIC POWDERS
- Table 5 (CONTINUED)
- Figure 4 SCHEMATIC OF A DC ARC PLASMA FURNACE DEVELOPED BY JAPAN' S
NATIONAL RESEARCH INSTITUTE FOR METALS
- Figure 5 LOS ALAMOS' RF PLASMA REACTOR
- Plasma Rapid Solidification Technology
- Reactive Electrode Submerged Arc
- SOL-GEL TECHNIQUES
- Alkoxide Route
- Internal Gelation
- PRECIPITATION
- HYDROTHERMAL PROCESS
- EMULSION PROCESS
- Figure 6 PROCESS FLOWCHART FOR EMULSION PROCESS TO PRODUCE BARIUM
TITANATE
- LASER SYNTHESIS
- COMBUSTION SYNTHESIS/SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS
- COMBINATORIALLY DISCOVERED MATERIALS
- POWDER SYNTHESIS COMPARISON
- Table 6 POWDER SYNTHESIS COMPARISON
- Table 6 (CONTINUED)
- Table 7 POWDER PROCESSES FOR VARIOUS CERAMIC MATERIALS
- MATERIAL APPLICATIONS AND PROPERTIES
- STRUCTURAL CERAMICS
- ELECTRONIC CERAMICS
- CERAMIC COATINGS
- Table 8 CURRENT AND POTENTIAL USES FOR ADVANCED CERAMICS
- Table 8 (CONTINUED)
- ADVANCED STRUCTURAL CERAMICS
- Table 9 CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED STRUCTURAL
CERAMICS
- Monolithic Structural Ceramics
- Table 10 PROPERTIES OF COMMERCIAL ALUMINA SPECIFICATIONS
- Table 11 PROPERTIES OF NORZIDE YZ-110 TETRAGONAL ZIRCONIA POLYCRYSTALS
(TZP)
- Table 12 FRACTURE TOUGHNESS AND CRITICAL FLAW SIZES OF MONOLITHIC AND
COMPOSITE CERAMICS MATERIALSA
- Table 13 PROPERTIES OF MONOLITHIC CERAMICS AND CERAMIC COMPOSITES
- Table 14 THERMAL CONDUCTIVITY OF VARIOUS ZIRCONIAS
- Ceramic Matrix Composites
- CERAMIC COATINGS
- Table 15 HIGH-PERFORMANCE CERAMIC COATING MATERIALS AND GENERAL
APPLICATIONS
- Table 16 REPRESENTATIVE FLAME AND PLASMA SPRAYED MATERIALS, MELTING OR
SOFTENING TEMPERATURE, AND USES
- Table 16 (CONTINUED)
- Table 17 CERAMIC INSULATORS AND THEIR PROPERTIES
- Substrates, IC Packages, and Multichip Modules
- Table 18 CERAMIC SUBSTRATE PROPERTIES
- Table 19 CANDIDATE CERAMIC SUBSTRATE MATERIALS FOR ELECTRONICS
- Table 20 DIELECTRIC MATERIAL FOR MULTILAYER CERAMIC CAPACITOR (BARIUM
TITANATE-BASED CERAMIC)
- Piezoelectric Ceramics
- Magnetic Ferrites
- Superconductors
- CHEMICAL AND ENVIRONMENTAL RELATED CERAMICS
- Ceramic Membranes and Filters
- Catalysts and Catalyst Supports
- TECHNICAL ISSUES AND PROBLEMS
- PARTICLE SIZE
- RHEOLOGY CONTROL
- RELIABILITY OF THE COMPONENTS
- GAPS IN R&D
- MATERIAL PROPERTIES
- OXIDE POWDERS
- OXIDE POWDERS
- MATERIAL TYPES
- ALUMINA
- ZIRCONIA
- FERRITES
- TITANATES
- MIXED COMPLEX OXIDES
- SYNTHESIS AND POWDER PREPARATION
- Figure 7 COMPARISON OF THE CONVENTIONAL SLURRY PROCESS FOR β- AL2O3
PRODUCTION WITH THAT USING SOLUBLE ALKALI ADDITIVES
- ZIRCONIA
- Chemical Zirconia
- Chlorination and Thermal Decomposition
- Alkali Oxide Decomposition
- Lime Diffusion
- Plasma Zirconia
- Figure 8 SCHEMATIC FOR PRODUCTION OF PLASMA DISSOCIATED ZIRCONIA
- Partially and Fully Stabilized Zirconia Powders
- Hydrothermal Method for High-Purity Zirconia
- FERRITES
- Figure 9 FLOW DIAGRAM OF A SPRAY ROASTER OF THE TYPE USED IN COMMERCIAL
FERRITE POWDER PRODUCTION
- Table 21 STEPS TO SYNTHESIZE BATIO3
- SUPERCONDUCTOR POWDERS
- PROPERTIES
- APPLICATIONS
- DEVELOPMENTS IN CERAMIC OXIDE POWDERS
- Table 22 SUMMARY OF DEVELOPMENTS IN CERAMIC OXIDE POWDERS
- Table 22 (CONTINUED)
- Table 22 (CONTINUED)
- Table 22 (CONTINUED)
- DEVELOPMENTS IN THE AMERICAS
- Bismuth Titanate Powders Synthesized Hydrothermally
- Superconductive Components Receives Grant
- Powder Synthesized in Arc Thermal Plasma Reactors
- Purdue Researchers Process Hydrothermal Powders and Thin Films
- Making Pure Oxide Powders
- Ferroceramic Powders at Low Temperatures
- Precursor Route to High-Purity Alumina
- DuPont Develops Hydrothermal Process
- Scaling up Ultrafine Piezoceramics
- Ignition Produces Fine Powders
- Strontium Ferrite Particles Prepared
- Synthesis of Ceramic Oxide Powders in a Microwave Plasma Device
- Low-Cost Synthesis of Advanced Ceramic Composite Powders
- Preparation of Superconducting YBa2Cu3O7 from Metal Formates
- High-Tc Superconducting Oxides by the Amorphous Citrate Process
- Al2O3, MgO, and Spinel Powders by Plasma Vaporization of Solutions
- Sol-Gel Synthesis of Aluminosilicate Powders
- ZrO2 Powders from Zirconium (IV) Carboxylates
- Polymeric Synthesis of Lead Magnesium Niobate Powders
- Hydrothermal Route to Produce Lead Zirconate Titanate
- Low-Cost Route to Doped Zirconia Powders
- Hydrothermal Route to Submicron Monoclinic Zirconia
- Powders by Rapid Expansion of Supercritical Solutions
- Organometallic Route to Glass Ceramics for Electronic Packaging
- Improved Physical Vapor Process
- DEVELOPMENTS IN ASIA
- Aqueous Sol-Gel Synthesis
- Emulsion Combustion Method Produces Hollow Alumina
- Anatase Titania Particulates Made
- Hydrothermal Synthesis Yields PZT Ceramics
- Barium Titanate/Polymer Hybrid Synthesized
- Polymerized Complexes for Complex Oxides
- Purifying Zirconium Solution by Ion Exchange
- Crystalline Ferrites Using Aqueous Routes
- High-Purity Lead Titanate Powder
- Tantalum and Niobium-Based Ceramic Powders
- Aluminum Titanate Particulates from Gels
- High-Purity Silica and Alumina Powders
- Metastable Oxide Powders Prepared by Plasma Processing
- Sol-Gel-Based Advanced Ceramic Powders
- Laser Production of Ultrafine Ceramic Particles
- Synthesis of Fully/Partially Stabilized Zirconia
- Fine SiO2 Particles by the Reaction of Silicon Sulfide and Water
Vapor
- Hydrothermal Oxidation of Niobium Metal
- Ultrafine Mullite Powder from Metal Alkoxides
- Lead Zirconate Titanate by Thermal Spray Decomposition
- High-Purity Zirconia from Zircon Powders
- Monodispersed Yttrium-Doped ZrO2 Powders
- Hydrothermal Processing for Superconducting Ceramic Oxides
- Preparation of Codeposited Al2O3-TiO2 Powders
- Hydrothermal Route to Doped Zirconia and Hafnia Powders
- Electronic Ceramic Powders by Molten Salt Synthesis
- Nanoexplosion Synthesis of Multimetal Oxide Ceramic Nanopowders
- DEVELOPMENTS IN AUSTRALIA AND SOUTH AMERICA
- Sol Flocculation Produces Transition Aluminas
- Semiautomated Unit Produces Precursor Powder
- DEVELOPMENTS IN EUROPE
- YBCO Powders Using Supercritical Fluid
- Ultrafine Alumina Powder by Sol-Gel Techniques
- Doping of ZnO Powders Optimized
- DEVELOPMENTS IN EUROPE
- Multiphase Powder from Emulsions
- Oxidation Makes Submicron Particles
- High-Purity Zirconia from Tioxide Ltd.
- Stabilizer Powders for Coatings
- Ceramic Powder by Sol-Gel Emulsion Process
- Alumina and Zirconia Powders by Spray Drying
- Titania Powders from Organic Precursors
- CARBIDE POWDERS
- MATERIAL TYPES
- SYNTHESIS AND POWDER PREPARATION
- ACHESON PROCESS FOR SILICON CARBIDE
- THERMAX PROCESS
- Figure 10 PROCESS FLOW DIAGRAM FOR A TUNGSTEN CARBIDE FACILITY
- ELECTRIC ARC PROCESS FOR BORON CARBIDE
- SOL-GEL TECHNIQUE
- POLYMER PYROLYSIS
- GAS-PHASE PROCESS
- NIST PROCESS
- PRODUCTION OF POWDERS FOR ADVANCED CERAMICS
- PROPERTIES
- APPLICATIONS
- DEVELOPMENTS IN CERAMIC CARBIDE POWDERS
- Table 23 SUMMARY OF DEVELOPMENTS IN CERAMIC CARBIDE POWDERS
- Table 23 (CONTINUED)
- DEVELOPMENTS IN NORTH AMERICA
- Carbothermal Synthesis of b-Sic Powders
- Using Electric Fields to Activate Synthesis
- High-Purity β-Sic Powder Produced by Carbothermic Reaction
- Synthesis of Polycarbosilanes as Precursors for Silicon Carbide
Ceramics
- Fine, High-Purity Beta SiC Powder
- Beta-SiC Synthesis in a Thermal Argon Plasma Jet Reactor
- Plasma Route to Synthesis of Carbide Ceramic Powders
- Vapor Synthesis of Silicon and SiC Powders
- Laser Synthesis of Si/C/N Powders from
1,1,1,3,3,3,-Hexamethyldisilazane
- Plasma Synthesis and Characterization of Ultrafine SiC
- Pure SiC from SiO2 and Carbon
- Solid Combustion Process for Synthesis of Carbide Powders
- Microwave Synthesis pf Phase-Pure, Fine Silicon Carbide Powder
- DEVELOPMENTS IN ASIA
- Synthesis of Monodispersed Spherical β-SiC Powder by a Sol-Gel
Process
- Ultrapure Silicon Carbide Powder
- Table 24 GRADE AND PURITY OF SILICON CARBIDE TPSS SERIES (PPM)
- Table 25 PURITY EVALUATION OF THE SINTERED TPSS (X 1019 ATOMS/CM2)
- Synthesis and Sintering of Boron-Doped SiC Powders by Plasma Arc Method
- Fine Silicon Carbide Particles from Tokai
- New Synthesis Process for β-SiC Powder
- Influence of Powder Characteristics on Sinterability of Silicon Carbide
- Improved Product Toughness by SiC Powder Processing
- Synthesis of Submicron SiC Powder from Carbonization of
Iminodisilanenitrile
- Preparation of SiC Powders by CVD Method Using RF-Plasma
- Synthesis of Ultrafine SiC in a Hybrid Plasma
- Ultrafine SiC Powders by the Plasma CVD under Reduced Pressure
- Self-Propagating High-Temperature Synthesis of SiC
- Processes for Producing SiC Particles and Sinter
- Preparation of a Fine Powder of Silicon Carbide
- Laser Igniting Synthesis of TiC Powders with Al, Ti, and C Powders
- DEVELOPMENTS IN EUROPE
- Fine Crystalline Boron Carbide from Elements
- NITRIDE POWDERS
- MATERIAL TYPES
- SYNTHESIS AND POWDER PREPARATION
- DIRECT NITRIDATION
- CARBOTHERMAL REDUCTION
- PYROLYSIS
- GAS-PHASE REACTIONS
- SOL-GEL TECHNIQUES
- LASER OR MICROWAVE SYNTHESIS
- PROPERTIES
- APPLICATIONS
- DEVELOPMENTS IN CERAMIC NITRIDE POWDERS
- Table 26 SUMMARY OF DEVELOPMENTS IN CERAMIC NITRIDE POWDERS
- Table 26 (CONTINUED)
- Table 26 (CONTINUED)
- DEVELOPMENTS IN NORTH AMERICA
- Sol-Gel Synthesis of Powders
- Low-Cost AlN as Fillers for Electronic Plastics and Structural
Components
- Synthesis of Needle-Like AlN Powders via Aerosol Techniques
- Ternary WN Powders Synthesized
- Combustion Synthesis of Si3N4 and AlN
- Water-Resistant AlN from Macom
- Carbothermal Amonolysis of Silica to Produce Si3N4
- Aluminum Nitride through Organometallic Route
- High-Purity, Fine Particle BN Powder Synthesis at -75-C to 750-C
- Titanium Nitride through SHS Technology
- Laser-Synthesized Silicon Nitride Powders
- Ford' s Low-Temperature Route for Si3N4 Powders
- DEVELOPMENTS IN ASIA
- Transition Metal Nitrides Prepared from Precursors
- Ceramic Powders Derived from Polymeric Precursors
- AlN Powder Synthesized
- Combustion Synthesis of SiAlON Powders
- Needle-Shaped Silicon Nitride Crystals Make Tougher Ceramics
- Fine Si3N4 Powders by Vapor-Phase Reaction
- Readily Sinterable Alpha-SiAlON Powder
- Synthesis of Si3N4 Powder by Thermal Decomposition of Si(NH)2
- Synthesis of Nitride Powders under High Nitrogen Pressure
- Ultrafine Si3N4 Powder Produced by a Hybrid Plasma Technique
- Composite Particles of SiC-Si3N4 System by Vapor Reaction Method
- Improved Homogeneity of Si3N4 Ceramics
- Laser Production of Ultrafine Ceramic Particles
- Preparation of SiAlON Powder from Alkoxides
- Synthesis of TiN and TiC Powders by a Reduction/Nitridation Method
- Preparation of Ca-Si-Al-O-N Oxynitride Glass Powders
- Nitridation of Silicon by Combustion Reaction
- DEVELOPMENTS IN EUROPE
- Si3N4 Powder Applied to Water-Based DCT
- Colloidal Processing of Silicon Nitride
- Silicon Nitride Powders by SHS
- Ultrafine Si3N4-Based Powders
- Vapor-Phase Route to Synthesize Silicon Nitride Powders
- Grinding of Silicon Nitride Powders of Different Origin in the
Attritor
- SiAlON Ceramics from Low-Cost Raw Materials
- Fine Grained Si3N4 Powders by Thermal Decomposition of Silicon
Diimide
- SiAlON Ceramics Using Reaction Sintering Process
- Laser Vapor-Phase Synthesis of Submicron Si and Si3N4 Powders from
Silanes
- AlN Powders from Aluminum and Lithium Salts
- BORIDE POWDERS
- TYPES
- SYNTHESIS AND POWDER PREPARATION
- PROPERTIES
- APPLICATIONS
- TITANIUM DIBORIDE
- ZIRCONIUM DIBORIDE
- DEVELOPMENTS IN CERAMIC BORIDE POWDERS
- Table 27 SUMMARY OF DEVELOPMENTS IN CERAMIC BORIDE POWDERS
- NORTH AMERICA
- Low-Temperature Synthesis of Boride Powders
- Gaseous Route for Titanium Diboride Powder
- ASIA
- Titanium Diboride Powders by a Solid Solution Reaction
- EUROPE
- Titanium Diboride Whiskers Synthesized
- Titanium Diboride Powders by a Carbothermal Method
- INDUSTRY STRUCTURE, COMPETITION, AND U.S. MARKETS FOR ADVANCED CERAMIC
POWDERS
- U.S. ADVANCED CERAMIC INDUSTRY STRUCTURE AND MARKETS
- Table 28 U.S. MARKETS FOR ADVANCED CERAMIC COMPONENTS, THROUGH 2011 ($
MILLIONS)
- Table 29 U.S. ADVANCED STRUCTURAL CERAMICS MARKETS AND MARKET SHARES,
THROUGH 2011
- ELECTRICAL AND ELECTRONICS CERAMICS
- Table 30 U.S. MARKETS AND MARKET SHARES FOR ELECTRONIC CERAMICS, THROUGH
2011
- Table 31 U.S. MARKET FOR HIGH-PERFORMANCE CERAMIC COATINGS, THROUGH 2011
($ MILLIONS)
- CHEMICAL PROCESSING AND ENVIRONMENTAL-RELATED APPLICATIONS
- Table 32 U.S. MARKETS AND MARKET SHARES FOR ADVANCED CERAMICS IN
CHEMICAL PROCESSING AND ENVIRONMENT-RELATED APPLICATIONS, THROUGH 2011
- OXIDE POWDER INDUSTRY STRUCTURE AND MARKETS
- Table 33 MAJOR U.S. SUPPLIERS OF ADVANCED OXIDE CERAMIC POWDERS
- Table 33 (CONTINUED)
- U.S. INDUSTRY PLAYERS
- Table 34 SUPPLIERS OF OXIDE CERAMIC POWDERS IN JAPAN
- Table 35 MANUFACTURERS OF OXIDE CERAMIC POWDERS IN EUROPE
- Table 36 U.S. MARKETS FOR CERAMIC SUBSTRATES, INTEGRATED CIRCUITS,
INSULATORS, AND MCMS THROUGH 2011 ($ MILLIONS)
- Table 37 ALUMINA POWDER REQUIREMENTS FOR ELECTRONIC APPLICATIONS,
THROUGH 2011 (MILLION LBS/$ MILLION)
- Table 38 U.S. MARKETS FOR ALUMINA POWDERS FOR STRUCTURAL APPLICATIONS,
THROUGH 2011
- Thermal Spray
- Chemical Processing and Environment-Related
- Table 39 U.S. MARKETS FOR OXIDE POWDERS FOR MEMBRANE APPLICATIONS,
THROUGH 2011 (THOUSAND LBS./$ MILLIONS)
- Table 40 U.S. MARKETS FOR OXIDE POWDERS FOR CERAMIC FILTERS, THROUGH
2011 (MILLION LBS/$ MILLIONS)
- Table 41 U.S. MARKETS FOR OXIDE POWDERS FOR CHEMICAL AND PROCESSING
CATALYST SUPPORTS, THROUGH 2011 (MILLION LBS/MILLIONS)
- Table 42 U.S. MARKETS FOR ALUMINA POWDERS FOR CHEMICAL PROCESSING AND
ENVIRONMENTAL RELATED APPLICATIONS, THROUGH 2011 (MILLION LBS/MILLIONS)
- Table 43 U.S. MARKETS FOR ALUMINA POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSAND LBS./$ MILLIONS)
- Table 44 BERYLLIA POWDER REQUIREMENTS FOR ELECTROCERAMIC APPLICATIONS,
THROUGH 2011 (THOUSAND LBS/MILLION $)
- Table 45 U.S. MARKETS FOR ZIRCONIA POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2007 (MILLION LBS/MILLION $)
- Foreign Competition
- Prices
- Markets
- Table 46 U.S. MARKETS FOR CERAMIC CAPACITORS AND BARIUM TITANATE
POWDERS, THROUGH 2011 ($ MILLION)
- Table 47 U.S. MARKET FOR PIEZOELECTRIC CERAMIC ELEMENTS AND TITANATE
POWDERS, THROUGH 2011 ($ MILLION)
- Table 48 TITANATE POWDER REQUIREMENTS FOR ADVANCED CERAMIC APPLICATIONS,
THROUGH 2011 (MILLION LBS/$ MILLIONS)
- Table 49 MARKET FOR CERAMIC PERMANENT MAGNETS, THROUGH 2011
- Table 50 U.S. SOFT FERRITES MARKETS, THROUGH 2011 (MILLION LBS/
$MILLIONS)
- Table 51 U.S. CERAMIC POWDER PRODUCTION REQUIREMENTS FOR HARD AND SOFT
FERRITES, THROUGH 2011 (MILLION LBS./$ MILLIONS)
- Table 52 SILICA POWDER REQUIREMENTS FOR CATALYST SUPPORTS, THROUGH 2007
(MILLIONS)
- Table 53 TITANIA POWDER REQUIREMENTS FOR MEMBRANES AND CATALYST
SUPPORTS, THROUGH 2011 (THOUSAND LBS/$ MILLIONS)
- Table 54 MIXED OXIDE POWDER REQUIREMENTS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (MILLION LBS/ $ MILLIONS)
- Table 55 U.S. MARKETS FOR OXIDE CERAMIC POWDERS, THROUGH 2011 (MILLION
LBS/$ MILLIONS)
- CARBIDE POWDER INDUSTRY STRUCTURE AND MARKETS
- Table 56 MAJOR U.S. SUPPLIERS OF CARBIDE POWDERS FOR ADVANCED CERAMICS
APPLICATIONS
- Table 56 (CONTINUED)
- FOREIGN COMPETITION
- Table 57 JAPANESE COMPANIES INVOLVED IN THE DEVELOPMENT AND/OR SUPPLYING
OF CARBIDE CERAMIC POWDERS
- Table 58 EUROPEAN COMPANIES INVOLVED IN THE DEVELOPMENT AND/OR SUPPLYING
OF CARBIDE CERAMIC POWDERS
- Table 59 U.S. MARKETS FOR CARBIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSAND LBS/$ THOUSANDS)
- NITRIDE POWDER INDUSTRY STRUCTURE AND MARKETS
- Table 60 MAJOR U.S. SUPPLIERS OF NITRIDE POWDERS FOR ADVANCED CERAMICS
APPLICATIONS
- Table 61 JAPANESE COMPANIES INVOLVED IN THE DEVELOPMENT AND PRODUCTION
OF NITRIDE CERAMIC POWDERS
- Table 62 EUROPEAN COMPANIES INVOLVED IN THE DEVELOPMENT AND PRODUCTION
OF NITRIDE CERAMIC POWDERS
- Table 63 U.S. MARKETS FOR SILICON NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/ $ THOUSANDS)
- Table 64 U.S. MARKETS FOR ALUMINUM NITRIDE POWDERS, THROUGH 2011
(THOUSANDS LBS/$ THOUSANDS)
- Table 65 MAJOR WORLDWIDE PRODUCERS OF BORON NITRIDE POWDER
- Table 66 U.S. MARKETS FOR BORON NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/$ MILLION)
- Table 67 U.S. MARKETS FOR NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSAND LBS/$ MILLION)
- BORIDE POWDER INDUSTRY STRUCTURE AND MARKETS
- U.S. COMPANIES
- FOREIGN COMPANIES
- U.S. MARKETS
- Table 68 U.S. MARKETS FOR TITANIUM DIBORIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/$ MILLION)
- OVERALL U.S. MARKET FOR ADVANCED CERAMIC POWDERS
- Table 69 U.S. MARKETS FOR ADVANCED CERAMIC POWDERS, THROUGH 2011
(MILLIONS)
- Table 69 (CONTINUED)
- NANOSIZED CERAMIC POWDERS-TECHNOLOGY AND INDUSTRY STRUCTURE
- NANOPHASE CERAMIC POWDER
- NANOCOMPOSITE CERAMIC POWDER
- SYNTHESIS OF NANOPOWDERS
- GAS-PHASE CONDENSATION
- HIGH-FREQUENCY PLASMA-CHEMICAL PROCESS
- CONVENTIONAL CHEMICAL PRECIPITATION
- HYDROTHERMAL METHOD
- ELECTROEXPLOSION
- ELECTRIC DISPERSION REACTION
- COMBUSTION SYNTHESIS
- Figure 11 SCHEMATIC OF PSI TECHNOLOGIES' CONTINUOUS PROCESS FOR
NANOSCALE POWDER SYNTHESIS
- Figure 12 SOL-GEL SYNTHESIS FLOW CHART
- MICROFLUIDIZER PROCESS
- MICROEMULSION TECHNOLOGY
- HIGH-ENERGY MECHANICAL MILLING
- Table 70 SURFACE AREA OF SELECTED OXIDE POWDERS
- Table 71 POTENTIAL AND ACTUAL COMMERCIAL APPLICATIONS OF NANOCERAMIC
POWDERS
- Table 71 (CONTINUED)
- FUEL CELLS AND OXYGEN SENSORS
- CERAMIC MEMBRANES AND FILTERS
- SUPERPLASTIC CERAMICS
- LOW PROCESSING TEMPERATURE COMPONENTS
- OPTICAL/ELECTRICAL/ELECTRONIC
- CERAMIC-CERAMIC JOINING
- STRUCTURAL CERAMICS APPLICATIONS
- CATALYSTS AND CATALYST SUPPORTS
- FERROFLUIDS
- SUNSCREENS
- ADVANCED COATINGS
- DEVELOPMENTS IN NANOCERAMICS
- Table 72 SUMMARY OF NEW DEVELOPMENTS IN NANOCERAMIC POWDERS
- Table 72 (CONTINUED)
- Table 72 (CONTINUED)
- Table 72 (CONTINUED)
- Table 72 (CONTINUED)
- DEVELOPMENTS IN NORTH AND SOUTH AMERICA
- Nickel Ferrite Nanoparticles Synthesized
- Nanosized Y3Al5O12 Powders via Flame Spray Pyrolysis
- Stabilized Zirconia Nanoparticle Synthesized
- Zeolite Nanoparticles as Building Blocks
- Synthesis of Nanostructured Gamma-Alumina Powders
- Bismuth Titanate Powders Synthesized Hydrothermally
- Nanoscale Materials Helps Emission Control
- Nanocrystalline Carbide Powders Synthesized at Low Cost
- Nanophase Powders Synthesized in a Turbulent Jet Flame
- Nanophase Gains Surface Modification Patent
- Focused Nanocrystalline Materials Research at Alfred
- Stable Nonoxide Nanopowders Using Flame Process
- New Surface Modification Patent for Nanophase
- Synthesis of Ceramics from Solutions
- Powders through Ethylene Glycol Polymerization Route
- Up in Flames: Patented Technology Makes Valuable Nanoparticles
- Highly Strung Nanocrystal Comes Down to Earth
- Optical Crystals from Nanocrystalline Titania
- Optical Crystals ... (Continued)
- Optical Crystals ... (Continued)
- Nanoparticles for Photonic Applications
- Boron Nitride Nanotubes Synthesized
- Inframat Develops Metal/Insulator Nanocomposites
- Inframat Develops Metal...(Continued)
- Nanophase Supplies Materials for Electronics
- Low-Cost Nanopowders from MicroCoating Technology
- Nanophase Introduces New Line of Zinc Oxide Particles
- Sasol Develops Nano Boehmite Alumina
- Sasol Develops ... (Continued)
- Battery Developers Expands R&D Using Altair' s Spinel
- AP Materials Receive Phase I SBIR Contract
- Altair Awarded Patent for TiO2 Pigment Process
- Partnership Announced
- Altair Files Patent for Nanosized Zirconia Process
- Nanophase Applies for New Core Patent
- Altair Expands Battery Material Technologies
- Nanopowders Pave the Way to Chip Miniaturization
- Low-Temperature Ceramics Process Makes Nanopowders
- Submicron-Size Boron Carbide Powders
- Nanoparticles Produce Ultrathin Composite Films
- Tungsten Carbide Powder by Spray Conversion Process
- Nanostructured Coatings via Thermal Spray
- Ceramic Powders from PVA Solution
- Processing of Nanocrystalline Oxide Ceramics Studied
- BxCyNz Nanotubes and Nanoparticles Synthesized
- Nanosized b"-Alumina
- Transparent Nanosized Alumina
- Nanocrystalline Nitrides Sintered
- Synthesis of Nanostructured SiC and SiC/Si3N4
- Table 73 COMPARISON OF MAS AND ACHESON PROCESS
- Plastic Deformation Produces Nanopowders
- Nanosize Powders by Combustion Synthesis
- Oxide-Coated Metal Clusters
- Nanophase Multicomponent Powders
- Nanophase-Al2O3 Powders Sintered
- NexTech Develops Nanoscale Powder
- Aerosol Combustion to Produce Nanophase Powder
- Nano Zirconia Powder by Hydrothermal Synthesis
- Ceramic Nanomaterials Using Polymer Chemistry and Lasers
- Compaction of Submicron and Nanocrystalline Al2O3-ZrO2 Ceramics
- Amorphous and Crystalline Aluminosilicate Nanopowders
- High Purity Zinc Oxide Nanoparticles
- Synthesis of Spherical Single-Crystal Ceramic Nanoparticles
- DEVELOPMENTS IN JAPAN, AUSTRALIA, AND OTHER ASIA
- Production of Nanosized Yttria Powders
- Alumina-Zirconia Nanocomposite Powder Fabricated
- Nanostructured LaGaO3 by Chemical Coprecipitation
- Monosized SiO2 Particles Synthesized in Meso-Structure
- Si3N4 Nanoparticles for CMP Slurry
- Nanosized PZT and PMN Synthesized Chemically
- Ultrafine BaTiO3 Powder in Nonaqueous Solvent
- Plasma Process Produces Metal-Oxide Nanoparticles
- China Moves Forward in Fine and Nano Powders
- China Moves Forward ...(Continued)
- Nano-Oxide Powders by Spray Drying and Oxidation
- Nanosized Oxide Powders from ISK
- Nanodispersion Combats Creep
- Nanosized Powders from China
- Boron Nitride Nanotube Synthesized
- Growing Oxides in an Organic Matrix
- Nanosized Alumina Particles
- Nanosized Piezoelectric Ceramic Powder
- Hydrothermally Produced Nanocrystalline Zirconia Powders
- Ceramic Nanocomposites by Sintering
- Ultrafine Si3N4 Powder by Plasma Process
- Direct Synthesis of Tungsten Carbide Nanoparticles by Mechanically
Assisted Carbothermic Reduction of Natural Wolframite
- DEVELOPMENTS IN EUROPE
- Colloidal Processed Powders for Porous Film Applications
- Nanocomposites by Wet Chemistry Precipitation
- Phosphor Powder Synthesized at 90-C
- Novel Synthesis Using ESAVD of Sol Precursors
- Nanocrystalline Ceramic Synthesized
- Densification and Grain Growth of Nanophase Ceramics
- Chemical Route to Nanoceramics Looks Promising
- Densification and Grain ...(Continued)
- Densification and Grain ...(Continued)
- Aerosol Decomposition Produces Nanoparticles
- Zirconia Nanopowder
- Microwave Plasma to Produce Ceramic Nanocomposite
- New Russian Process for Ultrafine Silicon Carbide Powder
- Mechanosynthesis of Nanocrystalline Materials
- Nanocrystalline Si/C/N Powders from Vapor Phase
- Gas-Phase Synthesis of Y-TZP Powders
- New Method for Size- and Shape-Control of Crystalline Zinc Oxide
Nanoparticles
- MAJOR ISSUES IN SYNTHESIS, PROCESSING AND HANDLING OF NANOCERAMIC
POWDERS
- TECHNICAL ISSUES
- REACTIVITY
- AGGLOMERATION
- THERMAL STABILITY
- INDUSTRY STRUCTURE AND MARKETS
- Table 74 U.S. PRODUCERS OF NANOCERAMIC POWDERS AND PRODUCTS
- Table 74 (CONTINUED)
- Table 74 (CONTINUED)
- MARKET LEADERS
- COMPANY RELATIONS
- Altair and Nanopowder Enterprises Sign Agreement
- DuPont and Air Products Form Joint Venture
- Altair in Distribution Agreement in Japan
- Nanophase Gets Foot into CMP Business as Rodel Supplier
- Motorola, DA NanoMaterials Team to Market Slurry
- Rodel to Supply Eternal Chemical' s Copper CMP Slurry
- PRICES
- Table 75 PRICES OF NANOCERAMIC POWDERS
- Table 76 FOREIGN PRODUCERS OF NANOCERAMIC POWDERS AND PRODUCTS
- Table 76 (CONTINUED)
- Table 77 U.S. MARKETS FOR CERAMIC NANOPOWDERS BY APPLICATIONS AND
MATERIALS TYPES, THROUGH 2011
- Table 77 (CONTINUED)
- Figure 13 U.S. MARKET OF CERAMIC NANOPOWDERS BY MATERIAL TYPES, 2006 AND
2011 ($ MILLIONS)
- Table 78 U.S. MARKETS FOR NANOSIZED CERAMIC POWDERS BY APPLICATION
SEGMENTS, THROUGH 2011 ($ MILLIONS)
- Table 79 U.S. MARKET SHARES OF CERAMIC NANOPOWDERS BY APPLICATION,
THROUGH 2011 (%)
- APPENDIX
- PROFILES OF NORTH AMERICAN COMPANIES AND INSTITUTIONS INVOLVED IN
CERAMIC AND NANOCERAMIC POWDERS
- ADVANCED CERAMICS CORPORATION
- ADVANCED COMPOSITE MATERIALS CORP.
- ADVANCED POWDER (AP) MATERIALS, INC.
- ALCAN CHEMICALS
- ALMATIS GMBH
- ALUCHEM INC.
- ALUMINUM CO. OF AMERICA (ALCOA)
- ALTAIR NANOTECHNOLOGIES, INC.
- AREMCO PRODUCTS
- ARGONIDE CORP.
- BAIKOWSKI INTERNATIONAL CORP.
- BAIKOWSKIMALAKOFF, INC.
- BASF AG.
- BATTELLE PACIFIC NORTHWEST LABS
- BAYER AG.
- BRUSH-WELLMAN, INC.
- CABOT MICROELECTRONICS CORP.
- CE MINERAL PROCESSING CO.
- CE MINERALS
- CELANESE
- CERAC, INC.
- CERALOX CORP.
- CERAMEM CORP.
- CHEMAT TECHNOLOGY INC.
- CLARIANT CORP.
- COORSTEK
- COORSTEK ELECTRONIC PRODUCTS GROUP
- COTRONICS CORP.
- DA NANOMATERIALS LLC
- E.I. DUPONT DE NEMOURS & CO.
- DUPONT EKC TECHNOLOGY, INC.
- DYLON INDUSTRIES INC.
- ELECTRO ABRASIVES CORP.
- ELF ATOCHEM NORTH AMERICA, INC.
- ELKEM MATERIALS
- EUTECTIC CORP.
- EXOLON CO.
- FERRO ELECTRONIC MATERIALS SYSTEMS
- FERROTEC CORP.
- FUJIMI CORP.
- GELEST, INC.
- GFS CHEMICALS, INC.
- HERMAN C. STARCK, INC.
- O. HOMMEL CO.
- HOOSIER MAGNETICS, INC.
- INFRAMAT CORP.
- INSTITUTE OF GAS TECHNOLOGY
- ISHIHARA CORP.
- ISK MAGNETICS
- MACH I, INC.
- M/A-COM ADVANCED MATERIALS
- MAGNESIUM ELECTRON INC. (MEI)
- MARKINTER CO.
- MATERIALS MODIFICATION, INC.
- MCP METAL SPECIALTIES
- MER CORP.
- MICRO ABRASIVES CORP.
- MILLENNIUM MATERIAL INC.
- MOYCO PRECISION ABRASIVES, INC.
- MUSCLE SHOALS MINERALS
- NANOCEROX
- NANOCRYSTAL CRYSTAL TECHNOLOGY LTD.
- NANOMAT, INC.
- NANOMATERIALS, INC.
- NANOMATERIALS RESEARCH LLC
- NANOPHASE TECHNOLOGIES, INC.
- NANOPOWDER ENTERPRISES, INC.
- NANOSCALE MATERIALS, INC.
- NATIONAL INST. OF STANDARDS AND TECHNOLOGY (NIST)
- NEXTECH MATERIALS, LTD.
- NYACOL NANO TECHNOLOGIES, INC.
- OMG AMERICAS
- ORTHOVITA CORP.
- PERFORMANCE CERAMICS CO.
- PLANAR SOLUTIONS LLC
- POWDER PROCESSING AND TECHONOLOGY
- PQ CORP.
- PRAXAIR SPECIALTY CERAMICS, INC.
- PRAXAIR SURFACE TECHNOLOGIES, INC.
- PRIMET LLC
- QUANTUM DOT CORP.
- RADIO MATERIALS CORP.
- READE ADVANCED MATERIALS
- RHODIA, INC.
- ROHM AND HAAS ELECTRONIC MATERIALS
- SAINT-GOBAIN CERAMIC MATERIALS
- SANDIA NATIONAL LABORATORIES
- SASOL NORTH AMERICA
- SOLVAY FLUORIDES
- STREM CHEMICALS
- SULZER METCO (U.S.), INC.
- SCI ENGINEEERED MATERIALS, INC.
- SUPERIOR GRAPHITE CO.
- SUPERIOR MICRO POWDERS
- TOSOH USA
- TRS TECHNOLOGIES, INC.
- UBE AMERICA, INC.
- UK ABRASIVES, INC.
- UMICORE USA
- UNIMIN CORP.
- U.S. PRODUCTS CO.
- R.T. VANDERBILT COMPANY, INC.
- WACKER CHEMICALS CORP.
- WAH CHANG
- WASHINGTON MILLS ELECTRO MINERALS CORP.
- WASHINGTON MILLS ELECTRO MINERALS CORP.
- WHITTAKER, CLARK & DANIELS, INC.
- ZIRCOA, INC.
- ZIRCONIA SALES (AMERICA), INC.
- ZYP COATINGS, INC.
- Z-TECH CORPORATION
- LIST OF TABLES
- Summary Table:
- U.S. MARKETS FOR ADVANCED CERAMIC AND NANOSIZED CERAMIC POWDERS, THROUGH
2011 (MILLIONS)
- Table 1 U.S. MARKETS FOR ADVANCED CERAMIC POWDERS ACCORDING TO TYPES AND
NANOSIZED CERAMIC POWDERS, THROUGH 2011 (MILLION LBS/$ MILLION)
- Table 2 U.S. MARKETS AND MARKET SHARES FOR ADVANCED CERAMIC POWDERS AND
NANOCERAMIC POWDERS ACCORDING TO APPLICATIONS, THROUGH 2011 ($ MILLIONS/%)
- Table 3 COMMONLY USED ADVANCED CERAMIC MATERIAL FAMILIES
- Table 4 PROCESS STEPS TO PRODUCE β-SIC VIA CARBOTHERMAL REDUCTION
- Table 5 PLASMA SYNTHESIS OF CERAMIC POWDERS
- Table 6 POWDER SYNTHESIS COMPARISON
- Table 7 POWDER PROCESSES FOR VARIOUS CERAMIC MATERIALS
- Table 8 CURRENT AND POTENTIAL USES FOR ADVANCED CERAMICS
- Table 9 CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED STRUCTURAL
CERAMICS
- Table 10 PROPERTIES OF COMMERCIAL ALUMINA SPECIFICATIONS
- Table 11 PROPERTIES OF NORZIDE YZ-110 TETRAGONAL ZIRCONIA POLYCRYSTALS
(TZP)
- Table 12 FRACTURE TOUGHNESS AND CRITICAL FLAW SIZES OF MONOLITHIC AND
COMPOSITE CERAMICS MATERIALSA
- Table 13 PROPERTIES OF MONOLITHIC CERAMICS AND CERAMIC COMPOSITES
- Table 14 THERMAL CONDUCTIVITY OF VARIOUS ZIRCONIAS
- Table 15 HIGH-PERFORMANCE CERAMIC COATING MATERIALS AND GENERAL
APPLICATIONS
- Table 16 REPRESENTATIVE FLAME AND PLASMA SPRAYED MATERIALS, MELTING OR
SOFTENING TEMPERATURE, AND USES
- Table 17 CERAMIC INSULATORS AND THEIR PROPERTIES
- Table 18 CERAMIC SUBSTRATE PROPERTIES
- Table 19 CANDIDATE CERAMIC SUBSTRATE MATERIALS FOR ELECTRONICS
- Table 20 DIELECTRIC MATERIAL FOR MULTILAYER CERAMIC CAPACITOR (BARIUM
TITANATE-BASED CERAMIC)
- Table 21 STEPS TO SYNTHESIZE BATIO3
- Table 22 SUMMARY OF DEVELOPMENTS IN CERAMIC OXIDE POWDERS
- Table 23 SUMMARY OF DEVELOPMENTS IN CERAMIC CARBIDE POWDERS
- Table 24 GRADE AND PURITY OF SILICON CARBIDE TPSS SERIES (PPM)
- Table 25 PURITY EVALUATION OF THE SINTERED TPSS (X 1019 ATOMS/CM2)
- Table 26 SUMMARY OF DEVELOPMENTS IN CERAMIC NITRIDE POWDERS
- Table 27 SUMMARY OF DEVELOPMENTS IN CERAMIC BORIDE POWDERS
- Table 28 U.S. MARKETS FOR ADVANCED CERAMIC COMPONENTS, THROUGH 2011 ($
MILLIONS)
- Table 29 U.S. ADVANCED STRUCTURAL CERAMICS MARKETS AND MARKET SHARES,
THROUGH 2011
- Table 30 U.S. MARKETS AND MARKET SHARES FOR ELECTRONIC CERAMICS, THROUGH
2011
- Table 31 U.S. MARKET FOR HIGH-PERFORMANCE CERAMIC COATINGS, THROUGH 2011
($ MILLIONS)
- Table 32 U.S. MARKETS AND MARKET SHARES FOR ADVANCED CERAMICS IN
CHEMICAL PROCESSING AND ENVIRONMENT-RELATED APPLICATIONS, THROUGH 2011
- Table 33 MAJOR U.S. SUPPLIERS OF ADVANCED OXIDE CERAMIC POWDERS
- Table 34 SUPPLIERS OF OXIDE CERAMIC POWDERS IN JAPAN
- Table 35 MANUFACTURERS OF OXIDE CERAMIC POWDERS IN EUROPE
- Table 36 U.S. MARKETS FOR CERAMIC SUBSTRATES, INTEGRATED CIRCUITS,
INSULATORS, AND MCMS THROUGH 2011 ($ MILLIONS)
- Table 37 ALUMINA POWDER REQUIREMENTS FOR ELECTRONIC APPLICATIONS,
THROUGH 2011 (MILLION LBS/$ MILLION)
- Table 38 U.S. MARKETS FOR ALUMINA POWDERS FOR STRUCTURAL APPLICATIONS,
THROUGH 2011
- Table 39 U.S. MARKETS FOR OXIDE POWDERS FOR MEMBRANE APPLICATIONS,
THROUGH 2011 (THOUSAND LBS./$ MILLIONS)
- Table 40 U.S. MARKETS FOR OXIDE POWDERS FOR CERAMIC FILTERS, THROUGH
2011 (MILLION LBS/$ MILLIONS)
- Table 41 U.S. MARKETS FOR OXIDE POWDERS FOR CHEMICAL AND PROCESSING
CATALYST SUPPORTS, THROUGH 2011 (MILLION LBS/MILLIONS)
- Table 42 U.S. MARKETS FOR ALUMINA POWDERS FOR CHEMICAL PROCESSING AND
ENVIRONMENTAL RELATED APPLICATIONS, THROUGH 2011 (MILLION LBS/MILLIONS)
- Table 43 U.S. MARKETS FOR ALUMINA POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSAND LBS./$ MILLIONS)
- Table 44 BERYLLIA POWDER REQUIREMENTS FOR ELECTROCERAMIC APPLICATIONS,
THROUGH 2011 (THOUSAND LBS/MILLION $)
- Table 45 U.S. MARKETS FOR ZIRCONIA POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2007 (MILLION LBS/MILLION $)
- Table 46 U.S. MARKETS FOR CERAMIC CAPACITORS AND BARIUM TITANATE
POWDERS, THROUGH 2011 ($ MILLION)
- Table 47 U.S. MARKET FOR PIEZOELECTRIC CERAMIC ELEMENTS AND TITANATE
POWDERS, THROUGH 2011 ($ MILLION)
- Table 48 TITANATE POWDER REQUIREMENTS FOR ADVANCED CERAMIC APPLICATIONS,
THROUGH 2011 (MILLION LBS/$ MILLIONS)
- Table 49 MARKET FOR CERAMIC PERMANENT MAGNETS, THROUGH 2011
- Table 50 U.S. SOFT FERRITES MARKETS, THROUGH 2011 (MILLION LBS/
$MILLIONS)
- Table 51 U.S. CERAMIC POWDER PRODUCTION REQUIREMENTS FOR HARD AND SOFT
FERRITES, THROUGH 2011 (MILLION LBS./$ MILLIONS)
- Table 52 SILICA POWDER REQUIREMENTS FOR CATALYST SUPPORTS, THROUGH 2007
(MILLIONS)
- Table 53 TITANIA POWDER REQUIREMENTS FOR MEMBRANES AND CATALYST
SUPPORTS, THROUGH 2011 (THOUSAND LBS/$ MILLIONS)
- Table 54 MIXED OXIDE POWDER REQUIREMENTS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (MILLION LBS/ $ MILLIONS)
- Table 55 U.S. MARKETS FOR OXIDE CERAMIC POWDERS, THROUGH 2011 (MILLION
LBS/$ MILLIONS)
- Table 56 MAJOR U.S. SUPPLIERS OF CARBIDE POWDERS FOR ADVANCED CERAMICS
APPLICATIONS
- Table 57 JAPANESE COMPANIES INVOLVED IN THE DEVELOPMENT AND/OR SUPPLYING
OF CARBIDE CERAMIC POWDERS
- Table 58 EUROPEAN COMPANIES INVOLVED IN THE DEVELOPMENT AND/OR SUPPLYING
OF CARBIDE CERAMIC POWDERS
- Table 59 U.S. MARKETS FOR CARBIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSAND LBS/$ THOUSANDS)
- Table 60 MAJOR U.S. SUPPLIERS OF NITRIDE POWDERS FOR ADVANCED CERAMICS
APPLICATIONS
- Table 61 JAPANESE COMPANIES INVOLVED IN THE DEVELOPMENT AND PRODUCTION
OF NITRIDE CERAMIC POWDERS
- Table 62 EUROPEAN COMPANIES INVOLVED IN THE DEVELOPMENT AND PRODUCTION
OF NITRIDE CERAMIC POWDERS
- Table 63 U.S. MARKETS FOR SILICON NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/ $ THOUSANDS)
- Table 64 U.S. MARKETS FOR ALUMINUM NITRIDE POWDERS, THROUGH 2011
(THOUSANDS LBS/$ THOUSANDS)
- Table 65 MAJOR WORLDWIDE PRODUCERS OF BORON NITRIDE POWDER
- Table 66 U.S. MARKETS FOR BORON NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/$ MILLION)
- Table 67 U.S. MARKETS FOR NITRIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (MILLION LBS/$ MILLION)
- Table 68 U.S. MARKETS FOR TITANIUM DIBORIDE POWDERS FOR ADVANCED CERAMIC
APPLICATIONS, THROUGH 2011 (THOUSANDS LBS/$ MILLION)
- Table 69 U.S. MARKETS FOR ADVANCED CERAMIC POWDERS, THROUGH 2011
(MILLIONS)
- Table 70 SURFACE AREA OF SELECTED OXIDE POWDERS
- Table 71 POTENTIAL AND ACTUAL COMMERCIAL APPLICATIONS OF NANOCERAMIC
POWDERS
- Table 72 SUMMARY OF NEW DEVELOPMENTS IN NANOCERAMIC POWDERS
- Table 73 COMPARISON OF MAS AND ACHESON PROCESS
- Table 74 U.S. PRODUCERS OF NANOCERAMIC POWDERS AND PRODUCTS
- Table 75 PRICES OF NANOCERAMIC POWDERS
- Table 76 FOREIGN PRODUCERS OF NANOCERAMIC POWDERS AND PRODUCTS
- Table 77 U.S. MARKETS FOR CERAMIC NANOPOWDERS BY APPLICATIONS AND
MATERIALS TYPES, THROUGH 2011
- Table 78 U.S. MARKETS FOR NANOSIZED CERAMIC POWDERS BY APPLICATION
SEGMENTS, THROUGH 2011 ($ MILLIONS)
- Table 79 U.S. MARKET SHARES OF CERAMIC NANOPOWDERS BY APPLICATION,
THROUGH 2011 (%)
- LIST OF FIGURES
- Summary Figure:
- U.S. MARKETS FOR ADVANCED CERAMIC AND NANOSIZED CERAMIC POWDER MARKETS,
2006 AND 2011 (%)
- Figure 1 MARKET SHARE OF THE U.S. ADVANCED CERAMIC POWDERS ACCORDING TO
TYPES AND NANOSIZED CERAMIC POWDERS, 2006 AND 2011
- Figure 2 MARKET SHARES FOR ADVANCED CERAMIC POWDERS AND NANOCERAMIC
POWDERS ACCORDING TO APPLICATIONS, 2006 AND 2011
- Figure 3 SCHEMATIC DIAGRAM OF THERMAL REACTOR SYSTEM FOR PRODUCING
CERAMIC POWDERS BY CVD
- Figure 4 SCHEMATIC OF A DC ARC PLASMA FURNACE DEVELOPED BY JAPAN' S
NATIONAL RESEARCH INSTITUTE FOR METALS
- Figure 5 LOS ALAMOS' RF PLASMA REACTOR
- Figure 6 PROCESS FLOWCHART FOR EMULSION PROCESS TO PRODUCE BARIUM
TITANATE
- Figure 7 COMPARISON OF THE CONVENTIONAL SLURRY PROCESS FOR β- AL2O3
PRODUCTION WITH THAT USING SOLUBLE ALKALI ADDITIVES
- Figure 8 SCHEMATIC FOR PRODUCTION OF PLASMA DISSOCIATED ZIRCONIA
- Figure 9 FLOW DIAGRAM OF A SPRAY ROASTER OF THE TYPE USED IN COMMERCIAL
FERRITE POWDER PRODUCTION
- Figure 10 PROCESS FLOW DIAGRAM FOR A TUNGSTEN CARBIDE FACILITY
- Figure 11 SCHEMATIC OF PSI TECHNOLOGIES' CONTINUOUS PROCESS FOR
NANOSCALE POWDER SYNTHESIS
- Figure 12 SOL-GEL SYNTHESIS FLOW CHART
- Figure 13 U.S. MARKET OF CERAMIC NANOPOWDERS BY MATERIAL TYPES, 2006 AND
2011 ($ MILLIONS)
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