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市場調查報告書
商品編碼
1662651
全球碳陶瓷煞車市場至2030年的預測:按類型、車輛類型、材料、銷售管道、規模、應用和地區的分析Carbon Ceramic Brake Market Forecasts to 2030 - Global Analysis By Type (Drum Brakes, Disc Brakes, and Other Types), Vehicle Type, Material Type, Sales Channel, Size, Application and By Geography |
根據 Stratistics MRC 的資料,2024年全球碳陶瓷煞車市值為 5.9309億美元,預計到2030年將達到 12.2824億美元,預測期內的年複合成長率為 12.9%。
碳陶瓷煞車是一種由碳纖維與陶瓷化合物結合的複合材料製成的高性能煞車系統。與傳統鋼製煞車相比,這些煞車具有卓越的耐熱性、輕量化特性和出色的煞車力道。碳陶瓷煞車廣泛用於豪華車、跑車和馬達,具有更高的耐用性、減少極端條件下的煞車衰退並提高煞車力道。由於重量輕,還可以減輕整體重量並提高燃油經濟性和操控性,提高車輛性能。
根據Safran,B737 安裝的碳煞車可以在大修期間完成 2,200 次降落。此外,A320neo系列飛機可執行2,500次著陸,而A350飛機可執行2,000次著陸。
對高性能汽車的需求不斷增加
隨著越來越多的人購買豪華、運動和高性能汽車,對能夠承受高速並提供卓越性能的先進煞車系統的需求也隨之增加。高性能車輛非常適合使用碳陶瓷煞車,因為它們具有出色的煞車力道、長壽命和耐熱性。除了提高操控性和整體性能之外,這些煞車還減輕了汽車重量,使其成為賽車和愛好者應用的必備品。碳陶瓷煞車在豪華車型、電動車和豪華跑車中越來越受歡迎,因為它們提高了這些車輛的安全性、性能和效率。
碳陶瓷煞車高成本
這種先進的煞車系統的製造採用了碳纖維和陶瓷化合物等優質材料,因此比傳統煞車系統成本高得多。由於這些成本原因,碳陶瓷煞車僅廣泛應用於能夠負擔高價的高性能、豪華和馬達車輛。對於大眾市場和入門級汽車來說,高價格仍然是一個障礙,阻礙了其廣泛普及。此外,它們的維護和維修費用比傳統煞車更昂貴,進一步限制了它們對預算有限的買家的吸引力。儘管它們性能優異,但高昂的初始成本阻礙了它們在市場上的普及。
對豪華汽車和電動車的需求不斷成長
豪華車通常會優先考慮諸如能夠承受高速並提供卓越安全性的先進煞車系統等高性能功能。碳陶瓷煞車是此類車輛的最佳選擇。其優異的耐熱性、耐用性和輕重量可提高性能和效率。隨著電動車(EV)的日益普及,碳陶瓷煞車的使用也得到了進一步的推動,因為電動車需要輕量化的零件來最佳化電池效率和續航里程。隨著電動車和高檔車的市場佔有率不斷擴大,對此類高性能煞車系統的需求預計將增加,推動市場擴張。
對寒冷天氣煞車性能的擔憂
碳陶瓷煞車在炎熱的陽光下工作良好,但在冰凍的溫度下可能不那麼可靠。與傳統的鋼或鑄鐵煞車相比,這種煞車材料在寒冷天氣下的牽引力和回應能力可能較差,這可能會影響車輛的性能和安全性。這種限制可能會使冬季嚴寒地區的買家不願意選擇碳陶瓷煞車,而選擇更可靠的替代品。此外,這些最尖端科技的廣大市場可能會因極寒條件下煞車皮和轉子磨損的可能性而受到限制,進一步阻礙其在寒冷氣候下的採用。
COVID-19 疫情對碳陶瓷煞車市場產生了重大影響,導致製造、供應鏈和需求中斷。汽車行業的生產停頓和延誤減緩了先進煞車系統的採用,包括碳陶瓷煞車。消費支出下降和汽車銷售暫時放緩(尤其是豪華車和高性能汽車領域),進一步抑制了市場成長。然而,汽車行業的復甦和疫情後對高性能汽車的需求增加預計將推動市場復甦。
預計商用車市場在預測期內將成為最大的市場。
由於重型應用對高性能煞車系統的需求不斷增加,預計商用車領域將在預測期內佔據最大的市場佔有率。這些煞車具有出色的耐熱性、耐用性和降低的維護成本,使其成為必須承受長時間和惡劣駕駛條件的商用車的必備品。此外,碳陶瓷煞車重量輕,可提高燃油效率和車輛性能,對於尋求提高安全性、降低營運成本和遵守環境標準的商業車隊來說,這是一個有吸引力的選擇。
預計預測期內航太領域將以最高的年複合成長率成長。
預計航太領域在預測期內將呈現最高的成長率。碳陶瓷煞車具有優異的耐熱性、耐用性和輕量化特性,使其成為性能和安全性非常重要的民航機和軍用飛機的理想選擇。此外,這些煞車還能減輕飛機的整體重量,進而提高燃油效率。隨著航太業繼續優先考慮先進材料以提高性能和永續性,碳陶瓷煞車在這一領域變得越來越重要。
預計亞太地區將在預測期內佔據最大的市場佔有率,因為對高性能汽車(尤其是豪華車和跑車)的需求不斷成長,刺激了碳陶瓷煞車的採用。此外,航空領域投資的增加以及民航機和軍用飛機產量的上升也促進了市場的擴張。該地區強大的製造業基礎和不斷成長的電動車產量進一步增加了對先進煞車系統的需求,推動了碳陶瓷煞車市場的發展。
由於對豪華、運動和高性能汽車的需求很高,預計北美地區在預測期內將呈現最高的年複合成長率。該地區強大的汽車和航太工業迅速採用先進的煞車解決方案來提高安全性、耐用性和性能。此外,尤其是在美國和加拿大,電動車(EV)和航太領域的成長進一步推動了對碳陶瓷煞車的需求。煞車技術的創新和對燃油效率的關注促進北美市場的擴張。
According to Stratistics MRC, the Global Carbon Ceramic Brake Market is accounted for $593.09 million in 2024 and is expected to reach $1228.24 million by 2030 growing at a CAGR of 12.9% during the forecast period. Carbon ceramic brakes are high-performance braking systems made from a composite material that combines carbon fibers and ceramic compounds. These brakes offer superior heat resistance, lightweight properties, and exceptional braking power compared to traditional steel brakes. Widely used in luxury cars, sports cars, and motorsports, carbon ceramic brakes provide enhanced durability, reduced brake fade under extreme conditions, and improved stopping power. Their lightweight nature also contributes to better vehicle performance by reducing overall weight, enhancing fuel efficiency, and handling.
According to Safran, carbon brakes equipped with B737 can conduct 2,200 landings between overhauls. It also offers 2,500 landings on A320neo family aircraft and 2,000 landings for those on the A350.
Increasing demand for high-performance vehicles
The demand for sophisticated brake systems that can withstand high speeds and deliver exceptional performance is rising as buyers go for luxury, sports, and high-performance vehicles. High-performance automobiles are the perfect fit for carbon ceramic brakes because of their remarkable stopping power, longevity, and heat resistance. In addition to improving handling and overall performance, these brakes lighten the car, which is essential for racing and enthusiast applications. In order to improve safety, performance, and efficiency in these vehicles, carbon ceramic brakes are becoming more and more popular in luxury models, electric vehicles, and high-end sports cars.
High cost of carbon ceramic brakes
High-end materials like carbon fibers and ceramic compounds are used in the production of these sophisticated braking systems, which makes them far more costly than conventional brake systems. Carbon ceramic brakes are only widely used in high-performance, luxury, and motorsport vehicles that can afford the higher price due to this cost reason. The expensive price is still deterrent to mass-market and entry-level vehicles, hindering widespread adoption. Furthermore, they may be more expensive to maintain and repair than traditional brakes, which further limit their appeal to buyers on a budget. Despite their greater performance, wider market adoption is hampered by this large upfront cost.
Rising demand for luxury and electric vehicles
High-performance features, such as advanced braking systems that can endure high speeds and offer exceptional safety, are frequently given priority in luxury vehicles. For such vehicles, carbon ceramic brakes are perfect because of their remarkable heat resistance, durability, and lightweight nature, which improves performance and efficiency. Carbon ceramic brake usage is further aided by the growing popularity of electric vehicles (EVs), which need lightweight parts to optimize battery efficiency and range. Demand for these high-performance braking systems is anticipated to increase as EVs and premium cars continue to capture market share, propelling market expansion.
Concerns over brake performance in cold weather
Carbon ceramic brakes work well in hot weather, but they may not be as dependable in very cold temperatures. The brake material might not provide as much traction or response in colder conditions as conventional steel or cast iron brakes, which could have an impact on vehicle performance and safety. This restriction may discourage buyers in areas with severe winters from selecting carbon ceramic brakes in favor of more dependable substitutes. The wider market for these cutting-edge technologies may also be constrained by the possibility of brake pad and rotor wear in extremely cold conditions, which can further discourage adoption in colder climates.
The COVID-19 pandemic significantly impacted the Carbon Ceramic Brake Market, causing disruptions in manufacturing, supply chains, and demand. With production halts and delays in the automotive sector, the adoption of advanced braking systems, including carbon ceramic brakes, slowed down. Reduced consumer spending and the temporary decline in vehicle sales, particularly in the luxury and performance vehicle segments, further restrained market growth. However, the recovery of the automotive industry and increasing demand for high-performance vehicles post-pandemic is expected to drive the market's rebound.
The commercial vehicles segment is expected to be the largest during the forecast period
The commercial vehicles segment is expected to account for the largest market share during the forecast period driven by the increasing need for high-performance braking systems in heavy-duty applications. These brakes offer superior heat resistance, durability, and reduced maintenance costs, which are essential for commercial vehicles that endure long operational hours and extreme driving conditions. Additionally, the lightweight nature of carbon ceramic brakes enhances fuel efficiency and vehicle performance, making them an attractive option for commercial fleets looking to improve safety, reduce operating costs, and meet environmental standards.
The aerospace segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the aerospace segment is predicted to witness the highest growth rate. Carbon ceramic brakes offer superior heat resistance, durability, and reduced weight, making them ideal for commercial and military aircraft, where performance and safety are critical. Additionally, these brakes contribute to fuel efficiency by reducing the overall weight of the aircraft. As the aerospace industry continues to prioritize advanced materials for improved performance and sustainability, carbon ceramic brakes are gaining prominence in the sector.
During the forecast period, the Asia Pacific region is expected to hold the largest market share, owing to the rising need for high-performance vehicles, particularly luxury and sports cars, is fueling the adoption of carbon ceramic brakes. Additionally, growing investments in aviation and the rising production of commercial and military aircraft are contributing to market expansion. The region's strong manufacturing base and the rise of electric vehicle production further drive the need for advanced braking systems, boosting the carbon ceramic brake market.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR due to the high demand for luxury, sports, and performance vehicles. The region's strong automotive and aerospace industries are rapidly adopting advanced braking solutions for enhanced safety, durability, and performance. Additionally, the growth of electric vehicles (EVs) and the aerospace sector, particularly in the U.S. and Canada, further propels the demand for carbon ceramic brakes. Innovations in braking technology and increased focus on fuel efficiency contribute to market expansion in North America.
Key players in the market
Some of the key players in Carbon Ceramic Brake market include Brembo S.p.A., Continental AG, Akebono Brake Industry Co., Ltd., ZF Friedrichshafen AG, Meyer Tool & Manufacturing, Inc., Bosch Mobility Solutions, Surface Transforms plc, Carbon Conversions, Inc., SGL Carbon, Hitachi Automotive Systems, Ltd., Magna International Inc., Ceramicspeed, TMD Friction, AP Racing, and Porsche AG.
In December 2024, Brembo unveiled an upgraded line of carbon ceramic brake discs for high-performance sports cars, focusing on enhancing heat resistance, performance, and weight reduction.
In August 2024, Continental introduced new carbon ceramic brake systems designed specifically for electric vehicles, optimizing performance while reducing weight for better energy efficiency.
In May 2024, SGL Carbon expanded its portfolio with new carbon ceramic brake components, targeting high-performance applications in both the automotive and aerospace sectors, offering improved durability and heat resistance.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.