市场调查报告书
商品编码
1351497
先进陶瓷市场 - 按材料类型(氧化物陶瓷、非氧化物陶瓷、复合陶瓷)、按类别(整体陶瓷、陶瓷基复合材料、陶瓷涂层)、按应用和全球预测 2023 - 2032Advanced Ceramics Market - By Material Type (Oxide Ceramics, Non-oxide Ceramics, Composite Ceramics), By Class (Monolithic Ceramics, Ceramic Matrix Composites, Ceramic Coatings), By Application & Global Forecast 2023 - 2032 |
2023 年至2032 年间,先进陶瓷市场的复合年增长率预计将超过4.9%。医疗保健产业对生物相容性和耐磨陶瓷的需求不断增长,刺激了医疗设备和植入物的创新,推动了市场成长。
2023 年8 月,专门从事先进陶瓷增材製造的3DCERAM Sinto, Inc. 与生物医学和技术市场先进陶瓷生产商SINTX Technologies, Inc. 宣布建立合作伙伴关係,共同开发用于3D 列印陶瓷产品的创新树脂和工艺。此次合作旨在加速优质树脂、3D 列印陶瓷零件的开发,并应用先进的热处理,特别关注服务于生物医学和熔模铸造行业。此外,风力涡轮机和太阳能电池板等再生能源应用的激增,推动了对先进陶瓷的需求,因为它们能够承受极端的环境条件。
根据材料类型,由于其独特的性能组合,复合陶瓷领域到 2032 年的复合年增长率将达到 6.7%。这些材料具有高强度、轻重量和耐极端温度的平衡,非常适合燃油效率和耐用性至关重要的航空航天应用。此外,它们的耐腐蚀性和电绝缘性能正在推动它们在化学和电气行业的应用,进一步刺激产品需求。复合陶瓷在快速成长的再生能源领域也受到关注,它们提高了太阳能板和风力涡轮机组件的性能和寿命,推动了整体市场的扩张。
就类别而言,陶瓷基复合材料细分市场在 2023 年至 2032 年间的复合年增长率将达到 7.1%,因为它们有能力应对航空航天和汽车等行业的特定挑战。 CMC 具有卓越的热稳定性和较低的热膨胀性,使其成为喷射引擎和煞车系统等高温应用的首选。此外,它们的轻质特性有助于提高运输的燃油效率并降低排放,与全球推动永续发展的趋势保持一致。这些优点,加上其增强的耐用性和耐磨性,正在推动 CMC 在各种先进工程应用中越来越多的采用,进一步推动市场需求。
在应用方面,医疗保健领域2023-2032年复合年增长率将达6.8%。生物相容性和卓越的耐磨性使先进陶瓷成为牙科和骨科植入物的理想选择,因为它们可以降低不良反应的风险并确保医疗设备更持久、可靠。此外,先进陶瓷卓越的化学稳定性和无孔性质有助于其在泵浦和阀门等关键医疗设备中的使用,透过最大限度地降低污染风险来提高病患的安全。这种独特的属性组合正在推动先进陶瓷在医疗保健领域的进一步整合,从而刺激需求。
从地区来看,由于工业化和基础设施的快速发展,到 2032 年,亚太地区先进陶瓷产业的复合年增长率将达到 7.3%。新兴的电子和电信业正在推动对先进陶瓷的需求,因为它们需要用于电路和电信设备的高性能材料。此外,该地区对环境永续性的日益关注正在推动先进陶瓷在燃料电池和电池等清洁能源技术中的采用,因为它们有助于减少温室气体排放。与绿色倡议的结合和不断扩大的工业需求是加速亚太地区先进陶瓷市场成长的关键因素。
Advanced Ceramics Market is poised to witness over 4.9% CAGR between 2023 and 2032. The healthcare industry's growing need for biocompatible and wear-resistant ceramics has spurred innovation in medical devices and implants, fueling market growth.
In August 2023, 3DCERAM Sinto, Inc., specializing in additive manufacturing of advanced ceramics, and SINTX Technologies, Inc., a producer of advanced ceramics for biomedical and technical markets, announced a partnership to create innovative resins and processes for 3D printing ceramic products. The collaboration was intended to accelerate the development of premium resins, 3D print ceramic parts, and apply advanced thermal treatments, with a specific focus on serving the biomedical and investment casting sectors. Additionally, the surge in renewable energy applications, like wind turbines and solar panels, has driven the demand for advanced ceramics due to their ability to withstand extreme environmental conditions.
Based on material type, the composite ceramics segment will depict a 6.7% CAGR through 2032, due to their unique combination of properties. These materials offer a balance of high strength, light weight, and resistance to extreme temperatures, making them ideal for applications in aerospace, where fuel efficiency and durability are paramount. Additionally, their corrosion resistance and electrical insulation properties are driving their adoption in chemical and electrical industries, further fueling product demand. Composite ceramics are also gaining traction in the rapidly growing field of renewable energy, where they enhance the performance and longevity of components in solar panels and wind turbines, driving the overall market expansion.
With regards to class, the ceramic matrix composites segment will depict a 7.1% CAGR between 2023-2032, given their ability to address specific challenges in industries such as aerospace and automotive. CMCs offer exceptional thermal stability and reduced thermal expansion, making them a preferred choice for high-temperature applications like jet engines and brake systems. Moreover, their lightweight nature contributes to fuel efficiency in transportation and lowers emissions, aligning with the global push for sustainability. These advantages, combined with their enhanced durability and resistance to wear, are driving the increasing adoption of CMCs across various advanced engineering applications, further propelling market demand.
In terms of application, the healthcare segment will record a 6.8% CAGR over 2023-2032. The biocompatibility and superior wear resistance make advanced ceramics an ideal choice for dental and orthopedic implants, as they reduce the risk of adverse reactions and ensure longer-lasting, reliable medical devices. Additionally, advanced ceramics' exceptional chemical stability and non-porous nature contribute to their use in critical medical equipment, such as pumps and valves, where they enhance patient safety by minimizing the risk of contamination. This unique combination of attributes is driving the increased integration of advanced ceramics in the healthcare sector, fueling demand.
Regionally, the Asia Pacific advanced ceramics industry will exhibit a 7.3% CAGR through 2032, owing to rapid industrialization and infrastructure development. The burgeoning electronics and telecommunications sectors are propelling the demand for advanced ceramics as they require high-performance materials for circuitry and telecommunications equipment. Additionally, the growing focus on environmental sustainability in the region is boosting the adoption of advanced ceramics in clean energy technologies, such as fuel cells and batteries, as they contribute to reducing greenhouse gas emissions. The alignment with green initiatives and expanding industrial needs are key factors accelerating the growth of the advanced ceramics market in the Asia Pacific region.