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市場調査レポート

先端セラミック&ナノセラミック粉末の世界市場

Advanced Ceramics and Nanoceramic Powders

発行 BCC Research 商品コード 203839
出版日 ページ情報 英文 159 Pages
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2016年12月31日まで 年末キャンペーン割引: BCC Research社発行レポート
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先端セラミック&ナノセラミック粉末の世界市場 Advanced Ceramics and Nanoceramic Powders
出版日: 2016年03月10日 ページ情報: 英文 159 Pages
担当者のコメント
BCC Research社のレポートは、Reuter、Wall Street Journal、Fortuneなどで引用されることも多く、それぞれの業界の識者の意見として重きを置かれています。同社レポートを複数冊ご購入の場合年間パッケージのご契約がお得です。詳細は右の担当者のおすすめ商品よりご覧下さい。
概要

世界の先端セラミックおよびナノセラミック粉末の市場は2016年から2021年にかけて8.9%のCAGR (複合年間成長率) で推移し、2016年の約146億米ドルから、2021年には223億米ドルの規模に成長すると予測されています。

当レポートでは、世界の先端セラミック粉末およびナノセラミック粉末の市場を調査し、市場および製品の概要、主な材料、材料区分別の合成・製造技術の動向、特性、用途、主要サプライヤー、市場規模の推移と予測、参入事業者および関連機関のプロファイルなどをまとめています。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 概要

  • 先端セラミック粉末の製造
  • 研究開発工程
  • 粉末合成の比較
  • 材料の用途および性質
  • セラミックコーティング
  • 電子セラミックス
  • 圧電セラミックス
  • 技術課題
  • エンドユーザー産業

第4章 酸化物粉末

  • サマリー
  • 材料のタイプ
  • 合成と粉末作製
  • 特性
  • 用途
  • サプライヤー
  • 市場
  • アルミナ
  • ベリリア
  • ジルコニア
  • 酸化チタン・チタン酸塩
  • フェライト
  • シリカ
  • 混合酸化物
  • 酸化物市場全般

第5章 炭化物粉末

  • 材料のタイプ
  • 合成と粉末作製
    • 炭化ケイ素向けアチソン法
    • サーマックス法
    • 炭化ホウ素向け電気アーク法
    • ゾルゲル技術
    • ポリマーの熱分解
    • 気相法
    • NISTプロセス
    • 先端セラミック向け粉末の製造
  • 特性
  • 用途
  • サプライヤー
  • 市場

第6章 窒化物粉末

  • 材料のタイプ
  • 合成と粉末作製
    • 直接窒化法
    • 炭素熱還元
    • 熱分解
    • 気相反応
    • ゾルゲル技術
    • レーザー/マイクロ波合成
  • 特性
  • 用途
  • サプライヤー
  • 市場
    • 窒化ケイ素
    • 窒化アルミニウム
    • 窒化ホウ素
  • 窒化物市場全般

第7章 ホウ化物粉末

  • 材料のタイプ
  • 合成と粉末作製
  • 特性
  • 用途
    • ニホウ化チタン
    • ホウ化ジルコニウム
  • サプライヤー
  • 市場
    • 価格
    • 消費量

第8章 ナノスケールセラミック粉末

  • 材料のタイプ
  • 特性
  • ナノ粉末の製造
    • 気相法
    • 湿式相プロセス
    • 機械加工
  • 用途
  • サプライヤー
  • 製品と流通チャネル
  • 市場リーダー
  • 市場

第9章 主要企業・機関のプロファイル

図表

このページに掲載されている内容は最新版と異なる場合があります。詳細はお問い合わせください。

目次
Product Code: NAN015H

REPORT HIGHLIGHTS

The global market for advanced and nanoscale ceramic powders will grow from nearly $14.6 billion in 2016 to $22.3 billion by 2021 with a compound annual growth rate (CAGR) of 8.9% for the period of 2016-2021.

This report provides:

  • An overview of the various advanced ceramic and nanosized ceramic powders and their corresponding production techniques and applications.
  • Analyses of global market trends, with data from 2015, estimates for 2016 and projections of CAGRs through 2021.
  • Identification of suppliers, major user industries, and major issues related to the production and commercialization of advanced ceramic and nanosized ceramic powders.
  • Examination of the technological as well as business issues related to the commercial production and use of advanced ceramic and nanoceramic powders.
  • Information on advanced ceramic powders categorized by their chemistry as oxides, carbides, nitrides, and borides.
  • Profiles of key players in the market.

SCOPE OF REPORT

For the various advanced ceramic and nanoscale powder types (oxides, carbides, nitrides, borides), the report provides an analysis of the material types in each category along with processing technologies, properties, applications, suppliers, prices and markets.

The technologies utilized in current commercial advanced ceramic powders and nanoscale powders reviewed in the report are categorized as being chemical and vapor- or gas-phase methodologies. The bulk of the technologies used in commercial production, such as the precipitation and sol-gel methods, are chemical based.

The qualitative and quantitative determinations embodied in this report are a valuable contribution to the current knowledge of advanced and nanoscale ceramic powders and their processing techniques, applications and markets. This information would be useful to companies that are facing decisions about their strategies for expansion or entering new business sectors.

ANALYSTS' CREDENTIALS

The original BCC Research report on this topic was authored by Dr. Thomas Abraham, who was previously Vice President and Director of the Advanced Materials Group of BCC Research. He authored BCC Research reports on a number of advanced materials technologies including advanced ceramic components, synthetic diamonds, magnetic materials, high-performance coatings and high-temperature superconductors.

The analyst responsible for updating the report is Andrew McWilliams, a partner in the Boston-based international technology and marketing consulting firm, 43rd Parallel LLC. Mr. McWilliams is the author of numerous other BCC studies, including those in ceramic-related fields.

Table of Contents

CHAPTER 1 - INTRODUCTION

  • STUDY GOALS AND OBJECTIVES
  • CONTRIBUTIONS OF THE STUDY
  • SCOPE OF REPORT
  • METHODOLOGY AND INFORMATION SOURCES
  • INTENDED AUDIENCE
  • ANALYSTS' CREDENTIALS
  • RELATED BCC RESEARCH REPORTS
  • BCC RESEARCH WEBSITE
  • DISCLAIMER

CHAPTER 2 - EXECUTIVE SUMMARY

  • SUMMARY TABLE: GLOBAL CONSUMPTION OF ADVANCED AND NANOSCALE CERAMIC POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • SUMMARY FIGURE: GLOBAL CONSUMPTION OF ADVANCED AND NANOSIZED CERAMIC POWDERS, 2015-2021 (%)

CHAPTER 3 - OVERVIEW

  • TABLE 1 COMMONLY USED ADVANCED CERAMIC MATERIAL FAMILIES
  • ADVANCED CERAMIC POWDER MANUFACTURING
  • R&D SCALE PROCESSES
    • THERMAL DECOMPOSITION
    • CHEMICAL VAPOR DEPOSITION (CVD)
    • PLASMA PROCESSES
      • TABLE 2: PLASMA SYNTHESIS OF CERAMIC POWDERS
      • FIGURE 1: SCHEMATIC OF DC ARC PLASMA FURNACE DEVELOPED BY THE JAPAN NATIONAL RESEARCH INSTITUTE FOR METALS
      • FIGURE 2: LOS ALAMOS RF PLASMA REACTOR
    • SOL-GEL TECHNIQUES
    • PRECIPITATION
    • HYDROTHERMAL SYNTHESIS
    • EMULSION PROCESS
      • FIGURE 3: FLOWCHART OF EMULSION PROCESS FOR THE PRODUCTION OF BARIUM TITANATE
    • LASER SYNTHESIS
    • COMBUSTION SYNTHESIS/SELF-PROPAGATING HIGH-TEMPERATURE SYNTHESIS
    • COMBINATORIALLY DISCOVERED MATERIALS
    • POWDER SYNTHESIS COMPARISON
      • TABLE 3: ADVANTAGES AND DISADVANTAGES OF THE POWDER SYNTHESIS PROCESS
      • TABLE 4: VARIOUS CERAMIC MATERIALS USED IN THE POWDER SYNTHESIS PROCESS
  • MATERIAL APPLICATIONS AND PROPERTIES
    • STRUCTURAL CERAMICS
    • ELECTRONIC CERAMICS
    • CERAMIC COATINGS
    • CHEMICAL AND ENVIRONMENTAL CONTROL RELATED
    • MEDICAL CERAMICS
      • TABLE 5: CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED CERAMIC MATERIALS
    • ADVANCED STRUCTURAL CERAMICS
      • TABLE 6: CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED STRUCTURAL CERAMICS
    • MONOLITHIC STRUCTURAL CERAMICS
      • TABLE 7: PROPERTIES OF COMMERCIAL ALUMINA CERAMICS
      • TABLE 8: PROPERTIES OF NORZIDE YZ-110HS TETRAGONAL ZIRCONIA CERAMICS
      • TABLE 9: FRACTURE TOUGHNESS AND CRITICAL FLAW SIZES OF MONOLITHIC AND COMPOSITE CERAMIC MATERIALS
      • TABLE 10: PROPERTIES OF MONOLITHIC CERAMICS AND CERAMIC COMPOSITES
      • TABLE 11: THERMAL CONDUCTIVITY OF VARIOUS ZIRCONIA CERAMICS
    • CERAMIC MATRIX COMPOSITES
  • CERAMIC COATINGS
    • TABLE 12: HIGH-PERFORMANCE CERAMIC COATING MATERIALS AND THEIR GENERAL APPLICATIONS
    • TABLE 13: REPRESENTATIVE FLAME AND PLASMA SPRAYED MATERIALS, MELTING OR SOFTENING TEMPERATURES AND APPLICATIONS
  • ELECTRONIC CERAMICS
    • INSULATORS
      • TABLE 14: CERAMIC INSULATORS AND THEIR PROPERTIES
    • SUBSTRATES, IC PACKAGES AND MULTICHIP MODULES
      • TABLE 15: CERAMIC SUBSTRATE MATERIALS AND THEIR PROPERTIES
      • TABLE 16: CANDIDATE CERAMIC SUBSTRATE MATERIALS FOR ELECTRONICS
    • CAPACITORS
      • TABLE 17: DIELECTRIC MATERIALS IN THE FORMULATION OF MULTILAYERED CERAMIC CAPACITORS (BARIUM TITANATE-BASED CERAMICS)
  • PIEZOELECTRIC CERAMICS
    • ADVANCED BATTERIES AND FUEL CELLS
      • TABLE 18: CHARACTERISTICS OF VARIOUS FUEL CELL TECHNOLOGIES
    • MAGNETIC FERRITES
    • SUPERCONDUCTORS
    • CHEMICAL AND ENVIRONMENTAL RELATED CERAMICS
      • Ceramic Membranes and Filters
      • Catalysts and Catalytic Supports
    • CERAMICS FOR MEDICAL APPLICATIONS
      • Prosthetics
      • Diagnostics
  • TECHNICAL ISSUES
    • PARTICLE SIZE
    • RHEOLOGY CONTROL
    • UNIFORMITY
    • OTHER MATERIAL PROPERTIES
  • END-USER INDUSTRIES
    • COMPANIES
      • FIGURE 4: CERAMIC POWDER END-USER INDUSTRIES, 2015 (%)
    • OUTPUT
      • TABLE 19: GLOBAL MARKET FOR ADVANCED CERAMIC COMPONENTS, THROUGH 2021 ($ MILLIONS)
    • OVERALL WORLDWIDE MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS
      • TABLE 20: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
      • FIGURE 5: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS BY TYPE, 2015-2021 (%)
      • FIGURE 6: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS BY END USE, 2015-2021 (%)

CHAPTER 4 - OXIDE POWDERS

  • SUMMARY
  • MATERIAL TYPES
    • ALUMINA
    • SILICA
    • ZIRCONIA
    • FERRITES
    • TITANATES
    • BERYLLIA
    • MIXED COMPLEX OXIDES
  • SYNTHESIS AND POWDER PREPARATION
    • ALUMINA
      • FIGURE 7: COMPARISON OF THE CONVENTIONAL SLURRY PROCESS FOR AL2O
  • PRODUCTION AND THE PROCESS USING SOLUBLE ALKALI ADDITIVES
    • ZIRCONIA
      • Chemical Zirconia
        • Chlorination and Thermal Decomposition
        • Alkali Oxide Decomposition
      • 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
    • TITANATES
      • FIGURE 10: STEPS TO SYNTHESIZE BATIO3
    • SUPERCONDUCTOR POWDERS
  • PROPERTIES
  • APPLICATIONS
  • SUPPLIERS
    • TABLE 21: MAJOR SUPPLIERS OF ADVANCED OXIDE CERAMIC POWDERS AND PRODUCTS
  • MARKETS
  • ALUMINA
    • PRICES
    • SUBSEGMENTS
      • Electronics
        • TABLE 22: GLOBAL MARKET FOR CERAMIC SUBSTRATES, INTEGRATED CIRCUITS, MULTICHIP CERAMIC MODULES AND INSULATORS, THROUGH 2021 ($ MILLIONS)
        • TABLE 23: GLOBAL MARKET FOR ALUMINA POWDER CONSUMPTION FOR ELECTRONIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
      • Structural
        • TABLE 24: GLOBAL MARKET FOR ALUMINA POWDERS FOR STRUCTURAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
      • Thermal Spray
        • TABLE 25: GLOBAL MARKET FOR ALUMINA POWDERS FOR THERMAL SPRAY APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
      • Chemical Processing and Environmental-Related
        • Membranes
          • TABLE 26: GLOBAL MARKET FOR OXIDE POWDERS FOR MEMBRANE APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
        • Filters
          • TABLE 27: GLOBAL MARKET FOR OXIDE POWDERS FOR CERAMIC FILTERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
        • Catalyst Supports
          • TABLE 28: GLOBAL MARKET FOR OXIDE POWDERS FOR CHEMICAL PROCESSING CATALYST SUPPORTS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
        • Combined Chemical Processing and Environmental Market
          • TABLE 29: GLOBAL MARKET FOR ALUMINA POWDERS FOR CHEMICAL PROCESSING AND ENVIRONMENTAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
        • Medical Applications
          • TABLE 30: GLOBAL MARKET FOR ALUMINA POWDERS FOR MEDICAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • COMBINED ALUMINA MARKETS
      • TABLE 31: GLOBAL MARKET FOR ALUMINA POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • BERYLLIA
    • PRICES
    • MARKETS
      • TABLE 32: GLOBAL MARKET FOR BERYLLIA POWDER CONSUMPTION FOR CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • ZIRCONIA
    • PRICES
    • MARKETS
      • TABLE 33: GLOBAL MARKET FOR ZIRCONIA POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • TITANIA AND TITANATES
    • PRICES
    • MARKETS
      • TABLE 34: GLOBAL MARKETS FOR CERAMIC CAPACITORS AND BARIUM TITANATE POWDERS, THROUGH 2021 (MILLION LBS /$ MILLIONS)
      • TABLE 35: GLOBAL MARKET PIEZOELECTRIC CERAMIC ELEMENTS AND LEAD ZIRCONATE TITANATE POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
      • TABLE 36: GLOBAL MARKET FOR TITANATE POWDER CONSUMPTION FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • FERRITES
    • PRICES
    • MARKETS
      • TABLE 37: GLOBAL MARKET FOR HARD FERRITE PERMANENT MAGNETS, THROUGH 2021 ($/LBS/MILLIONS/$ MILLIONS)
      • TABLE 38: GLOBAL MARKET FOR SOFT FERRITE PERMANENT MAGNETS, THROUGH 2021 ($/LBS./MILLIONS/$ MILLIONS)
      • TABLE 39: GLOBAL MARKET FOR CONSUMPTION OF HARD AND SOFT FERRITE POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • SILICA
    • PRICES
    • MARKETS
      • TABLE 40: GLOBAL MARKET FOR CONSUMPTION OF SILICA POWDER FOR CATALYST SUPPORTS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • MIXED OXIDES
    • PRICES
    • MARKETS
      • TABLE 41: GLOBAL MARKET FOR CONSUMPTION OF MIXED OXIDE POWDER FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • OVERALL OXIDE MARKETS
    • TABLE 42: GLOBAL MARKETS FOR OXIDE CERAMIC POWDERS BY APPLICATIONS AND MATERIAL TYPES, THROUGH 2021 (MILLION LBS/$ MILLIONS)

CHAPTER 5 - CARBIDE POWDERS

  • MATERIAL TYPES
  • SYNTHESIS AND POWDER PREPARATION
    • ACHESON PROCESS FOR SILICON CARBIDE
    • THERMAX PROCESS
      • FIGURE 11: PROCESS FLOW 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
  • SUPPLIERS
    • TABLE 43: SIGNIFICANT SUPPLIERS OF CARBIDE POWDERS FOR ADVANCED CERAMICS APPLICATIONS
  • MARKETS
    • PRICES
    • MARKETS
      • TABLE 44: GLOBAL MARKET FOR CARBIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)

CHAPTER 6 - 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
  • SUPPLIERS
    • TABLE 45: SUPPLIERS OF NITRIDE POWDERS FOR ADVANCED CERAMICS APPLICATIONS
  • MARKETS
    • SILICON NITRIDE
      • Prices
      • Markets
        • TABLE 46: GLOBAL MARKET FOR SILICON NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • ALUMINUM NITRIDE
      • Prices
      • Markets
        • TABLE 47: GLOBAL MARKET FOR ALUMINUM NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • BORON NITRIDE
      • Prices
      • Markets
        • TABLE 48: GLOBAL MARKET FOR BORON NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
  • OVERALL NITRIDE MARKETS
    • TABLE 49: GLOBAL MARKETS FOR NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)

CHAPTER 7 - BORIDE POWDERS

  • MATERIAL TYPES
  • SYNTHESIS AND POWDER PREPARATION
  • PROPERTIES
  • APPLICATIONS
    • TITANIUM DIBORIDE
    • ZIRCONIUM DIBORIDE
  • SUPPLIERS
    • TABLE 50: SUPPLIERS OF BORIDE POWDERS AND ADVANCED CERAMICS
  • MARKETS
    • PRICES
    • CONSUMPTION
      • TABLE 51: GLOBAL MARKET FOR BORIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)

CHAPTER 8 - NANOSCALE CERAMIC POWDERS

  • MATERIAL TYPES
  • PROPERTIES
    • TABLE 52: SURFACE AREAS OF SELECTED OXIDE POWDERS
  • FABRICATION OF NANOPOWDERS
    • GAS-PHASE PROCESSING
      • Gas-Phase Condensation
      • High Frequency Plasma-Chemical Process
      • Combustion Synthesis
      • Electroexplosion
      • Combustion Synthesis (Metal Chloride)
    • WET-PHASE PROCESSING
      • Conventional Chemical Precipitation
      • Hydrothermal Processing
      • Sol-Gel Processing
        • FIGURE 12: SOL-GEL SYNTHESIS CHART
      • Electric Dispersion Reaction
      • Thermochemical Synthesis
      • Microfluidizer Process
      • Microemulsion Technology
    • MECHANICAL PROCESSING
      • High-Energy Mechanical Milling
  • APPLICATIONS
    • TABLE 53: POTENTIAL AND ACTUAL COMMERCIAL APPLICATIONS OF NANOCERAMIC POWDERS
    • CERAMIC FILTERS
    • SUPERPLASTIC CERAMICS
    • LOW PROCESSING TEMPERATURE COMPONENTS
    • OPTICAL/ELECTRICAL
    • CERAMIC-CERAMIC JOINING
    • STRUCTURAL CERAMICS APPLICATIONS
    • CATALYSTS AND CATALYST SUPPORTS
    • FERROFLUIDS
    • SUNSCREENS
    • ADVANCED COATINGS
    • MEDICAL
  • SUPPLIERS
    • TABLE 54: SUPPLIERS OF NANOCERAMIC POWDERS AND PRODUCTS
  • PRODUCTS AND CHANNELS OF DISTRIBUTION
  • MARKET LEADERS
  • MARKETS
    • TABLE 55: GLOBAL MARKET FOR CERAMIC NANOPOWDERS BY APPLICATIONS AND MATERIALS TYPES, THROUGH 2021 ($ MILLIONS)
    • FIGURE 13: GLOBAL MARKET FOR CERAMIC NANOPOWDERS BY SEGMENTS, 2015-2021 (%)

CHAPTER 9 - PROFILES OF SELECTED COMPANIES AND INSTITUTIONS INVOLVED IN CERAMIC AND NANOCERAMIC POWDERS

  • ABCR GMBH & CO. KG
  • ACUMENTRICS CORP.
  • ADVANCED COMPOSITE MATERIALS LLC
  • ALMATIS GMBH
  • ALTAIR NANOTECHNOLOGIES INC.
  • ALTEO NA LLC
  • ALUCHEM INC.
  • ALUMINUM COMPANY OF AMERICA (ALCOA)
  • AMSC
  • AREMCO PRODUCTS
  • ARGONIDE CORP.
  • BAIKOWSKI GROUP
  • BASF AG
  • BAYER AG
  • BLOOM ENERGY INC.
  • CABOT MICROELECTRONICS CORP.
  • CARBO CERAMICS
  • CATHAY PIGMENTS
  • C-E MINERALS
  • CERADYNE INC.
  • CERALOX DIVISION
  • CERAMATEC INC.
  • CERAMTEC GMBH
  • CHEMAT TECHNOLOGY INC.
  • COORSTEK INC.
  • CORNING INC.
  • COTRONICS CORP.
  • DA NANOMATERIALS
  • DEMETER TECHNOLOGIES
  • E.I. DUPONT DE NEMOURS & CO.
  • ELECTRO ABRASIVES CORP.
  • ELKEM SILICON MATERIALS
  • EVONIK INDUSTRIES, AG
  • FERRO CORP.
  • FERROTEC CORP.
  • FUJIFILM PLANAR SOLUTIONS LLC
  • FUJIMI CORP.
  • GELEST INC.
  • GFS CHEMICALS INC.
  • H.C. STARK GMBH
  • HADRON TECHNOLOGIES INC.
  • HOOSIER MAGNETICS INC.
  • INFRAMAT CORP.
  • INNOVA SUPERCONDUCTOR TECHNOLOGY CO., LTD.
  • INNOVNANO
  • ISHIHARA SANGYO KAISHA, LTD.
  • KENNAMETAL INC.
  • KYOCERA CORP.
  • MACH 1 INC.
  • MARKINTER CO.
  • MATERIALS MODIFICATION INC.
  • MATERION CORP.
  • MEL CHEMICALS
  • MER CORP.
  • MICRO ABRASIVES CORP.
  • MOMENTIVE PERFORMANCE MATERIALS INC.
  • MS TECHNOLOGY INC.
  • NANOCEROX
  • NANOGRAM CORP.
  • NANOPHASE TECHNOLOGIES INC.
  • NANOSYS CORP.
  • NEI CORP.
  • NEXCERIS LLC
  • NYACOL NANO TECHNOLOGIES INC.
  • OERLIKON METCO INC.
  • POWDER PROCESSING AND TECHNOLOGY
  • PQ CORP.
  • PRAXAIR SURFACE TECHNOLOGIES
  • PRAXAIR SURFACE TECHNOLOGIES INC.
  • PRIMET PRECISION MATERIALS INC.
  • READE ADVANCED MATERIALS
  • RHODIA (SOLVAY)
  • RIO TINTO ALCAN
  • SAINT-GOBAIN CERAMICS AND PLASTICS
  • STEWARD ADVANCED MATERIALS
  • STREM CHEMICALS
  • STRYKER ORTHOBIOLOGICS
  • SCI ENGINEERED MATERIALS INC.
  • SUMITOMO CHEMICAL COMPANY LTD
  • SUPERIOR GRAPHITE CO.
  • TOSOH CORP.
  • TRS TECHNOLOGIES INC.
  • UBE INDUSTRIES LTD.
  • UK ABRASIVES INC.
  • UMICORE
  • UNIMIN CORP.
  • UNITED STATES PRODUCTS CO.
  • US TECHNICAL CERAMICS
  • WASHINGTON MILLS ELECTRO MINERALS CORP.
  • YAGEO CORP.
  • Z-TECH LLC
  • ZIRCOA INC.
  • ZYP COATINGS INC.

LIST OF TABLES

  • SUMMARY TABLE: GLOBAL CONSUMPTION OF ADVANCED AND NANOSCALE CERAMIC POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 1: COMMONLY USED ADVANCED CERAMIC MATERIAL FAMILIES
    • TABLE 2: PLASMA SYNTHESIS OF CERAMIC POWDERS
    • TABLE 3: ADVANTAGES AND DISADVANTAGES OF THE POWDER SYNTHESIS PROCESS
    • TABLE 4: VARIOUS CERAMIC MATERIALS USED IN THE POWDER SYNTHESIS PROCESS
    • TABLE 5: CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED CERAMIC MATERIALS
    • TABLE 6: CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED STRUCTURAL CERAMICS
    • TABLE 7: PROPERTIES OF COMMERCIAL ALUMINA CERAMICS
    • TABLE 8: PROPERTIES OF NORZIDE YZ-110HS TETRAGONAL ZIRCONIA CERAMICS
    • TABLE 9: FRACTURE TOUGHNESS AND CRITICAL FLAW SIZES OF MONOLITHIC AND COMPOSITE CERAMIC MATERIALS
    • TABLE 10: PROPERTIES OF MONOLITHIC CERAMICS AND CERAMIC COMPOSITES
    • TABLE 11: THERMAL CONDUCTIVITY OF VARIOUS ZIRCONIA CERAMICS
    • TABLE 12: HIGH-PERFORMANCE CERAMIC COATING MATERIALS AND THEIR GENERAL APPLICATIONS
    • TABLE 13: REPRESENTATIVE FLAME AND PLASMA SPRAYED MATERIALS, MELTING OR SOFTENING TEMPERATURES AND APPLICATIONS
    • TABLE 14: CERAMIC INSULATORS AND THEIR PROPERTIES
    • TABLE 15: CERAMIC SUBSTRATE MATERIALS AND THEIR PROPERTIES
    • TABLE 16: CANDIDATE CERAMIC SUBSTRATE MATERIALS FOR ELECTRONICS
    • TABLE 17: DIELECTRIC MATERIALS IN THE FORMULATION OF MULTILAYERED CERAMIC CAPACITORS (BARIUM TITANATE-BASED CERAMICS)
    • TABLE 18: CHARACTERISTICS OF VARIOUS FUEL CELL TECHNOLOGIES
    • TABLE 19: GLOBAL MARKET FOR ADVANCED CERAMIC COMPONENTS, THROUGH 2021 ($ MILLIONS)
    • TABLE 20: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 21: MAJOR SUPPLIERS OF ADVANCED OXIDE CERAMIC POWDERS AND PRODUCTS
    • TABLE 22: GLOBAL MARKET FOR CERAMIC SUBSTRATES, INTEGRATED CIRCUITS, MULTICHIP CERAMIC MODULES AND INSULATORS, THROUGH 2021 ($ MILLIONS)
    • TABLE 23: GLOBAL MARKET FOR ALUMINA POWDER CONSUMPTION FOR ELECTRONIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 24: GLOBAL MARKET FOR ALUMINA POWDERS FOR STRUCTURAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 25: GLOBAL MARKET FOR ALUMINA POWDERS FOR THERMAL SPRAY APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 26: GLOBAL MARKET FOR OXIDE POWDERS FOR MEMBRANE APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 27: GLOBAL MARKET FOR OXIDE POWDERS FOR CERAMIC FILTERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 28: GLOBAL MARKET FOR OXIDE POWDERS FOR CHEMICAL PROCESSING CATALYST SUPPORTS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 29: GLOBAL MARKET FOR ALUMINA POWDERS FOR CHEMICAL PROCESSING AND ENVIRONMENTAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 30: GLOBAL MARKET FOR ALUMINA POWDERS FOR MEDICAL APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 31: GLOBAL MARKET FOR ALUMINA POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 32: GLOBAL MARKET FOR BERYLLIA POWDER CONSUMPTION FOR CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 33: GLOBAL MARKET FOR ZIRCONIA POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 34: GLOBAL MARKETS FOR CERAMIC CAPACITORS AND BARIUM TITANATE POWDERS, THROUGH 2021 (MILLION LBS /$ MILLIONS)
    • TABLE 35: GLOBAL MARKET PIEZOELECTRIC CERAMIC ELEMENTS AND LEAD ZIRCONATE TITANATE POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 36: GLOBAL MARKET FOR TITANATE POWDER CONSUMPTION FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 37: GLOBAL MARKET FOR HARD FERRITE PERMANENT MAGNETS, THROUGH 2021 ($/LBS/MILLIONS/$ MILLIONS)
    • TABLE 38: GLOBAL MARKET FOR SOFT FERRITE PERMANENT MAGNETS, THROUGH 2021 ($/LBS./MILLIONS/$ MILLIONS)
    • TABLE 39: GLOBAL MARKET FOR CONSUMPTION OF HARD AND SOFT FERRITE POWDERS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 40: GLOBAL MARKET FOR CONSUMPTION OF SILICA POWDER FOR CATALYST SUPPORTS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 41: GLOBAL MARKET FOR CONSUMPTION OF MIXED OXIDE POWDER FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 42: GLOBAL MARKETS FOR OXIDE CERAMIC POWDERS BY APPLICATIONS AND MATERIAL TYPES, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 43: SIGNIFICANT SUPPLIERS OF CARBIDE POWDERS FOR ADVANCED CERAMICS APPLICATIONS
    • TABLE 44: GLOBAL MARKET FOR CARBIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 45: SUPPLIERS OF NITRIDE POWDERS FOR ADVANCED CERAMICS APPLICATIONS
    • TABLE 46: GLOBAL MARKET FOR SILICON NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 47: GLOBAL MARKET FOR ALUMINUM NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 48: GLOBAL MARKET FOR BORON NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 49: GLOBAL MARKETS FOR NITRIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 50: SUPPLIERS OF BORIDE POWDERS AND ADVANCED CERAMICS
    • TABLE 51: GLOBAL MARKET FOR BORIDE POWDERS FOR ADVANCED CERAMIC APPLICATIONS, THROUGH 2021 (MILLION LBS/$ MILLIONS)
    • TABLE 52: SURFACE AREAS OF SELECTED OXIDE POWDERS
    • TABLE 53: POTENTIAL AND ACTUAL COMMERCIAL APPLICATIONS OF NANOCERAMIC POWDERS
    • TABLE 54: SUPPLIERS OF NANOCERAMIC POWDERS AND PRODUCTS
    • TABLE 55: GLOBAL MARKET FOR CERAMIC NANOPOWDERS BY APPLICATIONS AND MATERIALS TYPES, THROUGH 2021 ($ MILLIONS)

LIST OF FIGURES

  • SUMMARY FIGURE: GLOBAL CONSUMPTION OF ADVANCED AND NANOSIZED CERAMIC POWDERS, 2015-2021 (%)
    • FIGURE 1: SCHEMATIC OF DC ARC PLASMA FURNACE DEVELOPED BY THE JAPAN NATIONAL RESEARCH INSTITUTE FOR METALS
    • FIGURE 2: LOS ALAMOS RF PLASMA REACTOR
    • FIGURE 3: FLOWCHART OF EMULSION PROCESS FOR THE PRODUCTION OF BARIUM TITANATE
    • FIGURE 4: CERAMIC POWDER END-USER INDUSTRIES, 2015 (%)
    • FIGURE 5: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS BY TYPE, 2015-2021 (%)
    • FIGURE 6: GLOBAL MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS BY END USE, 2015-2021 (%)
    • FIGURE 7: COMPARISON OF THE CONVENTIONAL SLURRY PROCESS FOR AL2O3 PRODUCTION AND THE PROCESS 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: STEPS TO SYNTHESIZE BATIO3
    • FIGURE 11: PROCESS FLOW FOR A TUNGSTEN CARBIDE FACILITY
    • FIGURE 12: SOL-GEL SYNTHESIS CHART
    • FIGURE 13: GLOBAL MARKET FOR CERAMIC NANOPOWDERS BY SEGMENTS, 2015-2021 (%)
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