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市场调查报告书
商品编码
1520670

全球技术陶瓷市场规模研究(按材料、产品、最终用途产业和区域预测)2022-2032 年

Global Technical Ceramics Market Size Study, by Material, by Product, by End-Use Industry and Regional Forecasts 2022-2032
出版日期: | 出版商: Bizwit Research & Consulting LLP | 英文 200 Pages | 商品交期: 2-3个工作天内

价格
简介目录

2023年全球技术陶瓷市场价值约为108.5亿美元,预计在2024-2032年预测期内将以超过6.20%的健康成长率成长。技术陶瓷,也称为高性能或工程陶瓷,是无机非金属材料,以其独特的热性能和物理性能组合而闻名。这些属性使其功能强大,非常适合需要耐高温、耐腐蚀、耐磨损以及延长使用寿命的各种技术应用。这些特性推动了技术陶瓷在多个行业的采用,包括电子、半导体、能源和电力以及工业製造。技术陶瓷市场的成长主要是由材料的绝缘和导电特性所推动的,这些特性是电子和半导体产品生产的基础。它们与高温的兼容性使其在能源和电力应用以及工业製造过程中不可或缺。此外,技术陶瓷的耐热衝击性和高稳定性进一步促进了其在医疗、消费品以及军事和国防工业的应用。然而,技术陶瓷的高成本严重限制了市场成长。儘管如此,各种应用的小型化趋势为专注于生产较小陶瓷产品的製造商提供了新的成长机会。

市场根据材料、产品、最终用途行业和地区进行细分。依材料类型,市场分为氧化物陶瓷和非氧化物陶瓷。依产品分类,可分为整体陶瓷、陶瓷涂层及陶瓷基复合材料。最终用途产业包括电子和半导体、汽车、能源和电力、工业、医疗、军事和国防等。

全球技术陶瓷市场研究考虑的关键地区包括亚太地区、北美、欧洲、拉丁美洲和世界其他地区。就收入而言,亚太地区是技术陶瓷市场的主导地区。该地区的市场成长归功于汽车、电子电气、能源电力等成熟产业,这些因素推动了对技术陶瓷的需求。在强劲的汽车销售和消费性电子产业快速发展的推动下,该地区成长的主要贡献者包括中国、印度和日本。然而,在成熟的汽车工业、半导体产业的成长和不断扩大的消费性电子市场的推动下,北美市场预计在预测期内将以显着的速度成长。

目录

第 1 章:全球技术陶瓷市场执行摘要

  • 全球技术陶瓷市场规模及预测(2022-2032)
  • 区域概要
  • 分部摘要
    • 按材质
    • 按产品分类
    • 按最终用途行业
  • 主要趋势
  • 经济衰退的影响
  • 分析师推荐与结论

第 2 章:全球技术陶瓷市场定义与研究假设

  • 研究目的
  • 市场定义
  • 研究假设
    • 包含与排除
    • 限制
    • 供给侧分析
      • 可用性
      • 基础设施
      • 监管环境
      • 市场竞争
      • 经济可行性(消费者的角度)
    • 需求面分析
      • 监理框架
      • 技术进步
      • 环境考虑
      • 消费者意识和接受度
  • 估算方法
  • 研究考虑的年份
  • 货币兑换率

第 3 章:全球技术陶瓷市场动态

  • 市场驱动因素
    • 绝缘和导电性能
    • 高温相容性
    • 抗热震性
  • 市场挑战
    • 技术陶瓷的高成本
    • 来自低成本替代品的竞争
  • 市场机会
    • 不断发展的小型化趋势
    • 增加新兴产业的应用
    • 技术创新

第 4 章:全球技术陶瓷市场产业分析

  • 波特的五力模型
    • 供应商的议价能力
    • 买家的议价能力
    • 新进入者的威胁
    • 替代品的威胁
    • 竞争竞争
    • 波特五力模型的未来方法
    • 波特的五力影响分析
  • PESTEL分析
    • 政治的
    • 经济
    • 社会的
    • 技术性
    • 环境的
    • 合法的
  • 顶级投资机会
  • 最佳制胜策略
  • 颠覆性趋势
  • 产业专家视角
  • 分析师推荐与结论

第 5 章:全球技术陶瓷市场规模及材料预测(2022-2032 年)

  • 细分仪表板
  • 全球技术陶瓷市场:2022 年和 2032 年材料收入趋势分析
    • 氧化物
    • 非氧化物

第 6 章:全球技术陶瓷市场规模及产品预测(2022-2032 年)

  • 细分仪表板
  • 全球技术陶瓷市场:2022 年和 2032 年产品收入趋势分析
    • 整体陶瓷
    • 陶瓷涂料
    • 陶瓷基复合材料 (CMC)

第 7 章:全球技术陶瓷市场规模及最终用途产业预测(2022-2032 年)

  • 细分仪表板
  • 全球技术陶瓷市场:最终用途产业收入趋势分析,2022 年和 2032 年
    • 电子与半导体
    • 汽车
    • 能源与电力
    • 工业的
    • 医疗的
    • 军事与国防
    • 其他的

第 8 章:全球技术陶瓷市场规模及按地区预测(2022-2032 年)

  • 北美技术陶瓷市场
    • 美国技术陶瓷市场
      • 2022-2032 年材料细分尺寸与预测
      • 2022-2032 年产品细分规模与预测
      • 最终用途产业细分规模与预测,2022-2032 年
    • 加拿大技术陶瓷市场
      • 2022-2032 年材料细分尺寸与预测
      • 2022-2032 年产品细分规模与预测
      • 最终用途产业细分规模与预测,2022-2032 年
  • 欧洲技术陶瓷市场
    • 英国技术陶瓷市场
    • 德国技术陶瓷市场
    • 法国技术陶瓷市场
    • 西班牙技术陶瓷市场
    • 义大利技术陶瓷市场
    • 欧洲其他地区技术陶瓷市场
  • 亚太技术陶瓷市场
    • 中国技术陶瓷市场
    • 印度技术陶瓷市场
    • 日本技术陶瓷市场
    • 澳洲技术陶瓷市场
    • 韩国技术陶瓷市场
    • 亚太地区其他技术陶瓷市场
  • 拉丁美洲技术陶瓷市场
    • 巴西技术陶瓷市场
    • 墨西哥技术陶瓷市场
    • 拉丁美洲其他地区技术陶瓷市场
  • 中东和非洲技术陶瓷市场
    • 沙乌地阿拉伯技术陶瓷市场
    • 南非技术陶瓷市场
    • 中东和非洲其他地区技术陶瓷市场

第 9 章:竞争情报

  • 重点企业SWOT分析
  • 顶级市场策略
  • 公司简介
    • Rauschert GmbH
      • 关键讯息
      • 概述
      • 财务(视数据可用性而定)
      • 产品概要
      • 市场策略
    • McDanel Advanced Ceramic Technologies
    • CoorsTek Inc.
    • Saint-Gobain SA
    • 3M
    • NGK Spark Plug Co., Ltd.
    • KCC CORPORATION
    • Superior Technical Ceramics
    • Ceradyne Inc.
    • Ortech Incorporated
    • KYOCERA Corporation
    • Albemarle Corporation
    • Morgan Advanced Materials plc
    • Murata Manufacturing Co. Ltd.
    • Momentive Performance Materials Inc.

第 10 章:研究过程

  • 研究过程
    • 资料探勘
    • 分析
    • 市场预测
    • 验证
    • 出版
  • 研究属性
简介目录

Global Technical Ceramics Market is valued approximately at USD 10.85 billion in 2023 and is anticipated to grow with a healthy growth rate of more than 6.20% over the forecast period 2024-2032. Technical ceramics, also known as high-performance or engineering ceramics, are inorganic, non-metallic materials known for their unique combination of thermal and physical properties. These attributes make them highly functional and ideally suited for various technical applications requiring high temperature, corrosion and wear resistance, and extended service life. These characteristics drive the adoption of technical ceramics across multiple industries, including electronics, semiconductors, energy & power, and industrial manufacturing. The growth of the technical ceramics market is primarily fueled by the material's insulating and conductive properties, which are fundamental in the production of electronics and semiconductor products. Their compatibility with high temperatures makes them indispensable in energy & power applications and industrial manufacturing processes. Additionally, the thermal shock resistance and high stability offered by technical ceramics further boost their adoption in medical, consumer goods, and military & defense industries. However, the high costs associated with technical ceramics pose a significant restraint on market growth. Despite this, the trend towards miniaturization in various applications presents new growth opportunities for manufacturers focusing on producing smaller ceramic products.

The market is segmented based on material, product, end-use industry, and region. By material type, the market is divided into oxide ceramics and non-oxide ceramics. By product, it is categorized into monolithic ceramics, ceramic coatings, and ceramic matrix composites. The end-use industries include electronics & semiconductors, automotive, energy & power, industrial, medical, military & defense, and others.

The key regions considered for the global Technical Ceramics market study include Asia Pacific, North America, Europe, Latin America, and the Rest of the World. Asia-Pacific is a dominating region in the Technical Ceramics market in terms of revenue. The market growth in the region is being attributed to factors including well-established industries such as automotive, electronics & electricals, and energy & power, which drive the demand for technical ceramics. Major contributors to the regional growth include China, India, and Japan, driven by robust automotive sales and rapid development in the consumer electronics sector. Whereas, the market in North America is anticipated to grow at a significant rate over the forecast period fueled by the established automotive industry, growth in the semiconductor sector, and the expanding consumer electronics market.

Major market players included in this report are:

  • KYOCERA Corporation
  • Albemarle Corporation
  • Morgan Advanced Materials plc
  • Rauschert GmbH
  • McDanel Advanced Ceramic Technologies
  • CoorsTek Inc.
  • Saint-Gobain S.A.
  • 3M
  • NGK Spark Plug Co., Ltd.
  • KCC CORPORATION
  • Superior Technical Ceramics
  • Ceradyne Inc.
  • Ortech Incorporated
  • Murata Manufacturing Co. Ltd.
  • Momentive Performance Materials Inc.

The detailed segments and sub-segment of the market are explained below:

By Material

  • Oxide
  • Non-Oxide

By Product

  • Monolithic Ceramics
  • Ceramic Coatings
  • Ceramic Matrix Composites (CMC)

By End Use Industry

  • Electronics & Semiconductor
  • Automotive
  • Energy & Power
  • Industrial
  • Medical
  • Military & Defense
  • Others

By Region:

  • North America
  • U.S.
  • Canada
  • Europe
  • UK
  • Germany
  • France
  • Spain
  • Italy
  • ROE
  • Asia Pacific
  • China
  • India
  • Japan
  • Australia
  • South Korea
  • RoAPAC
  • Latin America
  • Brazil
  • Mexico
  • Middle East & Africa
  • Saudi Arabia
  • South Africa
  • RoMEA

Years considered for the study are as follows:

  • Historical year - 2022
  • Base year - 2023
  • Forecast period - 2024 to 2032

Key Takeaways:

  • Market Estimates & Forecast for 10 years from 2022 to 2032.
  • Annualized revenues and regional level analysis for each market segment.
  • Detailed analysis of geographical landscape with country-level analysis of major regions.
  • Competitive landscape with information on major players in the market.
  • Analysis of key business strategies and recommendations on future market approach.
  • Analysis of competitive structure of the market.
  • Demand-side and supply-side analysis of the market.

Table of Contents

Chapter 1. Global Technical Ceramics Market Executive Summary

  • 1.1. Global Technical Ceramics Market Size & Forecast (2022-2032)
  • 1.2. Regional Summary
  • 1.3. Segmental Summary
    • 1.3.1. By Material
    • 1.3.2. By Product
    • 1.3.3. By End Use Industry
  • 1.4. Key Trends
  • 1.5. Recession Impact
  • 1.6. Analyst Recommendation & Conclusion

Chapter 2. Global Technical Ceramics Market Definition and Research Assumptions

  • 2.1. Research Objective
  • 2.2. Market Definition
  • 2.3. Research Assumptions
    • 2.3.1. Inclusion & Exclusion
    • 2.3.2. Limitations
    • 2.3.3. Supply Side Analysis
      • 2.3.3.1. Availability
      • 2.3.3.2. Infrastructure
      • 2.3.3.3. Regulatory Environment
      • 2.3.3.4. Market Competition
      • 2.3.3.5. Economic Viability (Consumer's Perspective)
    • 2.3.4. Demand Side Analysis
      • 2.3.4.1. Regulatory frameworks
      • 2.3.4.2. Technological Advancements
      • 2.3.4.3. Environmental Considerations
      • 2.3.4.4. Consumer Awareness & Acceptance
  • 2.4. Estimation Methodology
  • 2.5. Years Considered for the Study
  • 2.6. Currency Conversion Rates

Chapter 3. Global Technical Ceramics Market Dynamics

  • 3.1. Market Drivers
    • 3.1.1. Insulating and Conductive Properties
    • 3.1.2. High-Temperature Compatibility
    • 3.1.3. Thermal Shock Resistance
  • 3.2. Market Challenges
    • 3.2.1. High Costs of Technical Ceramics
    • 3.2.2. Competition from Low-Cost Alternatives
  • 3.3. Market Opportunities
    • 3.3.1. Evolving Miniaturization trend
    • 3.3.2. Increasing Applications in Emerging Industries
    • 3.3.3. Technological Innovations

Chapter 4. Global Technical Ceramics Market Industry Analysis

  • 4.1. Porter's 5 Force Model
    • 4.1.1. Bargaining Power of Suppliers
    • 4.1.2. Bargaining Power of Buyers
    • 4.1.3. Threat of New Entrants
    • 4.1.4. Threat of Substitutes
    • 4.1.5. Competitive Rivalry
    • 4.1.6. Futuristic Approach to Porter's 5 Force Model
    • 4.1.7. Porter's 5 Force Impact Analysis
  • 4.2. PESTEL Analysis
    • 4.2.1. Political
    • 4.2.2. Economical
    • 4.2.3. Social
    • 4.2.4. Technological
    • 4.2.5. Environmental
    • 4.2.6. Legal
  • 4.3. Top investment opportunity
  • 4.4. Top winning strategies
  • 4.5. Disruptive Trends
  • 4.6. Industry Expert Perspective
  • 4.7. Analyst Recommendation & Conclusion

Chapter 5. Global Technical Ceramics Market Size & Forecasts by Material (2022-2032)

  • 5.1. Segment Dashboard
  • 5.2. Global Technical Ceramics Market: Material Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 5.2.1. Oxide
    • 5.2.2. Non-Oxide

Chapter 6. Global Technical Ceramics Market Size & Forecasts by Product (2022-2032)

  • 6.1. Segment Dashboard
  • 6.2. Global Technical Ceramics Market: Product Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 6.2.1. Monolithic Ceramics
    • 6.2.2. Ceramic Coatings
    • 6.2.3. Ceramic Matrix Composites (CMC)

Chapter 7. Global Technical Ceramics Market Size & Forecasts by End Use Industry (2022-2032)

  • 7.1. Segment Dashboard
  • 7.2. Global Technical Ceramics Market: End Use Industry Revenue Trend Analysis, 2022 & 2032 (USD Billion)
    • 7.2.1. Electronics & Semiconductor
    • 7.2.2. Automotive
    • 7.2.3. Energy & Power
    • 7.2.4. Industrial
    • 7.2.5. Medical
    • 7.2.6. Military & Defense
    • 7.2.7. Others

Chapter 8. Global Technical Ceramics Market Size & Forecasts by Region (2022-2032)

  • 8.1. North America Technical Ceramics Market
    • 8.1.1. U.S. Technical Ceramics Market
      • 8.1.1.1. Material breakdown size & forecasts, 2022-2032
      • 8.1.1.2. Product breakdown size & forecasts, 2022-2032
      • 8.1.1.3. End Use Industry breakdown size & forecasts, 2022-2032
    • 8.1.2. Canada Technical Ceramics Market
      • 8.1.2.1. Material breakdown size & forecasts, 2022-2032
      • 8.1.2.2. Product breakdown size & forecasts, 2022-2032
      • 8.1.2.3. End Use Industry breakdown size & forecasts, 2022-2032
  • 8.2. Europe Technical Ceramics Market
    • 8.2.1. U.K. Technical Ceramics Market
    • 8.2.2. Germany Technical Ceramics Market
    • 8.2.3. France Technical Ceramics Market
    • 8.2.4. Spain Technical Ceramics Market
    • 8.2.5. Italy Technical Ceramics Market
    • 8.2.6. Rest of Europe Technical Ceramics Market
  • 8.3. Asia-Pacific Technical Ceramics Market
    • 8.3.1. China Technical Ceramics Market
    • 8.3.2. India Technical Ceramics Market
    • 8.3.3. Japan Technical Ceramics Market
    • 8.3.4. Australia Technical Ceramics Market
    • 8.3.5. South Korea Technical Ceramics Market
    • 8.3.6. Rest of Asia Pacific Technical Ceramics Market
  • 8.4. Latin America Technical Ceramics Market
    • 8.4.1. Brazil Technical Ceramics Market
    • 8.4.2. Mexico Technical Ceramics Market
    • 8.4.3. Rest of Latin America Technical Ceramics Market
  • 8.5. Middle East & Africa Technical Ceramics Market
    • 8.5.1. Saudi Arabia Technical Ceramics Market
    • 8.5.2. South Africa Technical Ceramics Market
    • 8.5.3. Rest of Middle East & Africa Technical Ceramics Market

Chapter 9. Competitive Intelligence

  • 9.1. Key Company SWOT Analysis
  • 9.2. Top Market Strategies
  • 9.3. Company Profiles
    • 9.3.1. Rauschert GmbH
      • 9.3.1.1. Key Information
      • 9.3.1.2. Overview
      • 9.3.1.3. Financial (Subject to Data Availability)
      • 9.3.1.4. Product Summary
      • 9.3.1.5. Market Strategies
    • 9.3.2. McDanel Advanced Ceramic Technologies
    • 9.3.3. CoorsTek Inc.
    • 9.3.4. Saint-Gobain S.A.
    • 9.3.5. 3M
    • 9.3.6. NGK Spark Plug Co., Ltd.
    • 9.3.7. KCC CORPORATION
    • 9.3.8. Superior Technical Ceramics
    • 9.3.9. Ceradyne Inc.
    • 9.3.10. Ortech Incorporated
    • 9.3.11. KYOCERA Corporation
    • 9.3.12. Albemarle Corporation
    • 9.3.13. Morgan Advanced Materials plc
    • 9.3.14. Murata Manufacturing Co. Ltd.
    • 9.3.15. Momentive Performance Materials Inc.

Chapter 10. Research Process

  • 10.1. Research Process
    • 10.1.1. Data Mining
    • 10.1.2. Analysis
    • 10.1.3. Market Estimation
    • 10.1.4. Validation
    • 10.1.5. Publishing
  • 10.2. Research Attributes