市场调查报告书
商品编码
1558304
到 2030 年先进温度控管材料的市场预测:按类型、材料类型、设备类型、最终用户和地区进行的全球分析Advanced Thermal Management Materials Market Forecasts to 2030 - Global Analysis By Type (Thermal Gasket, Thermal Gel, Thermal Resin, Graphite and Other Types), Material Type, Device Type, End User and by Geography |
根据Stratistics MRC预测,2024年全球先进温度控管材料市场规模将达50.1亿美元,预计2030年将达到79亿美元,预测期内复合年增长率为7.9%。
透过使用先进的温度控管材料,可以大幅提高电子设备、航太零件和其他高科技系统的性能和寿命。由于避免过热和保持可靠运作至关重要,因此这些材料能够有效散热并保持热稳定性。此外,在相变过程中吸收和释放热量的相变材料(PCM)、结合多种特性以增强温度控管的先进复合材料,以及石墨烯和氮化铝等高导热材料,这只是解决方案的一部分。
根据温度控管材料协会 (TMMA) 的说法,采用先进的温度控管材料对于应对现代电子和高性能係统日益严峻的热挑战至关重要。
人们对电子产品的兴趣日益浓厚
电子产业的快速扩张以及智慧型手机、平板电脑、穿戴式装置和其他消费性电子产品的激增正在推动对先进温度控管材料的需求。随着这些设备变得越来越小、越来越复杂,它们会产生更多的热量,需要先进的材料来正确管理散热。此外,电子产品在医疗保健、工业自动化和智慧家庭等行业的日益普及也推动了这项需求。
尖端材料的价格过高
用于先进温度控管的高性能复合材料和石墨烯等新材料通常价格昂贵。对于小型製造商或资源有限的製造商来说,这些材料的价格可能是一个主要障碍。此外,高生产和加工成本可能会阻碍这些材料的广泛使用,特别是在更便宜的替代品就足够的应用和行业中。
电动车 (EV) 的扩张
随着电动车的普及,先进温度控管材料面临巨大的机会。为了保持最佳性能并控制电池温度,电动车 (EV) 需要先进的温度控管系统。随着电动车市场的成长,对能够有效管理电池组、电力电子设备和充电系统热量的材料的需求量很大。此外,这种成长为公司提供了开发和提供适合汽车行业需求的专业温度控管解决方案的机会。
供应链中断
自然灾害、不稳定的政治环境和流行病都可能扰乱先进温度控管材料的全球供应链。供应链中断可能会导致无法满足客户需求、成本增加以及获取材料延迟等问题。此外,为了减轻这些风险,公司必须制定强而有力的供应链策略和后备计画。
先进温度控管材料市场受到 COVID-19 大流行的严重影响,流行病最初扰乱了供应链、停止了生产并推迟了许多行业的计划。世界各地的封锁和限制影响了材料的可用性和製造能力,导致供不应求和成本上升。经济的不确定性以及基础设施和工业计划投资的减少暂时限制了市场的扩张。然而,随着产业适应新常态,疫情加速了数位技术和远距工作的采用。
石墨领域预计将在预测期内成为最大的领域
先进温度控管材料市场预计将由石墨领域主导。石墨因其优良的导热性、高温稳定性和适应性而被广泛应用。它们用于各种需要有效散热的应用,包括电子设备、汽车零件和航太系统。此外,高性能温度控管解决方案青睐这种材料,因为它具有有效的导热性、轻质和抗热劣化性。它在冷却系统、散热器和热感界面材料中的广泛应用使其在该市场占据主导地位。
在预测期内,相变材料(PCM)产业预计复合年增长率最高
在先进温度控管材料市场中,相变材料(PCM)领域预计将表现出最高的复合年增长率。 PCM在相变过程中吸收和释放热量的优异能力提高了其热稳定性,使其可用于各种应用中的温度控制,从而增加其用途。这项特性对于温度控制非常重要的产业尤其有利,例如电子、汽车和建筑材料。此外,对更节能的解决方案和改进的温度控管的需求不断增长,推动了 PCM 在这些行业中的采用。
先进温度控管材料市场由北美主导。该地区在电子和技术领域的强势地位、对汽车和航太行业的大量投资以及对研发的高度重视是该地区占据主导地位的主要原因。此外,北美的全球市场主导地位是由该地区的先进技术和製造能力以及家用电子电器、电动车和高效能运算领域对先进热感解决方案的需求所推动的。
先进温度控管材料市场的复合年增长率预计将低于亚太地区,但在欧洲最高。该地区受益于航太和汽车等蓬勃发展的行业,这些行业的性能和效率取决于尖端的温度控管解决方案。由于欧洲对永续性和能源效率的承诺,创新温度控管材料的需求量很大。此外,该地区还致力于整合先进技术,以满足严格的环境和性能标准。
According to Stratistics MRC, the Global Advanced Thermal Management Materials Market is accounted for $5.01 billion in 2024 and is expected to reach $7.90 billion by 2030 growing at a CAGR of 7.9% during the forecast period. The performance and longevity of electronic devices, aerospace components, and other high-tech systems are greatly enhanced by the use of advanced thermal management materials. It is essential to avoid overheating and maintain reliable operation, which is why these materials are made to efficiently dissipate heat and preserve thermal stability. Moreover, phase change materials (PCMs) that absorb and release heat during phase transitions, advanced composites that combine multiple properties for enhanced thermal management, and high thermal conductivity materials like graphene and aluminium nitride are just a few of the creative solutions they cover.
According to the Thermal Management Materials Association (TMMA), the adoption of advanced thermal management materials is critical for addressing the increasing thermal challenges posed by modern electronic devices and high-performance systems.
Growing interest in electronics
Advanced thermal management materials are in high demand due to the electronics industry's rapid expansion and the widespread use of smart phones, tablets, wearable's, and other consumer electronics. These devices produce more heat as they get smaller and more powerful, so in order to properly manage thermal dissipation, advanced materials are required. Additionally, this demand is further fueled by the expanding use of electronics in industries like healthcare, industrial automation, and smart homes.
Exorbitant prices for cutting-edge materials
High-performance composites and new materials like graphene, which are useful for advanced thermal management, are frequently expensive. For smaller manufacturers or those with limited resources, the price of these materials can be a major obstacle. Furthermore, high production and processing costs may prevent them from being widely used, especially in applications or industries where less expensive alternatives may be considered adequate.
Growing electric vehicle (EV) adoption
Advanced thermal management materials have a great opportunity as the use of electric vehicles increases. To maintain optimal performance and control battery temperatures, electric vehicles (EVs) need advanced thermal management systems. Materials that can effectively manage heat in battery packs, power electronics, and charging systems are in greater demand as the EV market grows. Moreover, companies now have the chance to create and offer specialized thermal management solutions that are suited to the demands of the automotive industry, owing to this growth.
Supply chain interruptions
Natural disasters, unstable political environments, or pandemics can all cause disruptions to the global supply chain for advanced thermal management materials. Supply chain disruptions can cause problems meeting customer demands, higher costs, and delays in the availability of materials. Additionally, to reduce these risks, businesses must create strong supply chain strategies and backup plans.
The market for advanced thermal management materials was significantly impacted by the COVID-19 pandemic, which at first caused supply chains to break, production to stop, and projects in a number of industries to be delayed. Lockdowns and restrictions around the world impacted material availability and manufacturing capabilities, leading to shortages and higher costs. Market expansion was momentarily restrained by economic uncertainty and lower investments in infrastructure and industrial projects. However, the pandemic also accelerated the adoption of digital technologies and remote work as industries adjusted to the new normal.
The Graphite segment is expected to be the largest during the forecast period
The market for advanced thermal management materials is expected to be dominated by the graphite segment. Because of its exceptional heat conductivity, stability at high temperatures, and adaptability, graphite is used extensively. It is used in many different applications where effective heat dissipation is essential, such as electronics, automotive parts, and aerospace systems. Moreover, high-performance thermal management solutions favor this material because of its effective heat conductivity, light weight, and resistance to thermal degradation. Its dominating position in the market is a result of its widespread use in cooling systems, heat spreaders, and thermal interface materials.
The Phase Change Materials (PCMs) segment is expected to have the highest CAGR during the forecast period
In the advanced thermal management materials market, the Phase Change Materials (PCMs) segment is projected to have the highest CAGR. Due to PCMs' exceptional capacity to absorb and release heat during phase transitions, which improves thermal stability and helps control temperature in a variety of applications, their use is growing. In industries where temperature control is crucial, such as electronics, automotive, and building materials, this quality is especially beneficial. Additionally, the adoption of PCMs in these industries is driven by the growing demand for more energy-efficient solutions and improved thermal management.
The market for advanced thermal management materials is dominated by North America. The region's stronghold in the electronics and technology sectors, large investments in the automotive and aerospace industries, and strong emphasis on research and development are the main causes of its dominance. Furthermore, North America holds a prominent position in the global market due to the region's leading technological advancements and manufacturing capabilities, as well as the high demand for advanced thermal solutions in consumer electronics, electric vehicles, and high-performance computing.
The advanced thermal management materials market is expected to grow at the highest CAGR in the Europe region, albeit less sharply than in the Asia-Pacific region. The region gains from having robust industries like aerospace and automotive, where performance and efficiency depend on cutting-edge thermal management solutions. Innovative thermal management materials are in high demand due to Europe's commitment to sustainability and energy efficiency. Moreover, the region focuses on integrating advanced technologies to meet strict environmental and performance standards.
Key players in the market
Some of the key players in Advanced Thermal Management Materials market include DuPont, NeoGraf, Jones Tech PLC, 3M, Saint-Gobain, Henkel, Suzhou Kanglida Precision Electronics Co., Ltd, Fujipoly Sarcon, Shanghai Allied Industrial Co., Ltd, Parker and Kerafol.
In July 2024, DuPont has signed an agreement to acquire Donatelle Plastics Inc., a leading medical device contract manufacturer specializing in the design, development and manufacture of medical components and devices. The transaction is expected to close in the third quarter 2024, subject to satisfaction of customary closing conditions and receipt of regulatory approvals.
In March 2024, 3M and HD Hyundai Korea Shipbuilding & Marine Engineering (KSOE) have signed a joint research project agreement to develop large liquid hydrogen storage tanks using Glass Bubbles from 3M - a high-strength, low-density hollow glass microsphere. The collaborative research will focus on developing a high-performance vacuum insulation system for liquified hydrogen storage and transportation.
In February 2024, Saint-Gobain has announced that it has entered into a definitive agreement with CSR Limited to acquire all of the outstanding shares of CSR by way of an Australian scheme of arrangement for AUS$9.00 per share, in cash, corresponding to an enterprise value of AUS$4.5 billion and a net enterprise value of AUS$3.2 billion post short to mid-term monetisable property value of at least AUS$1.3 billion.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.