Automotive Carbon Ceramic Brake Rotors Market Size to grow by USD 252.8 million between 2024-2028
According to a research report “ Automotive Carbon Ceramic Brake Rotors Market” by Application (Passenger cars, Commercial vehicles) Type (Drilled rotors, Slotted rotors) Geography (Europe, North America, APAC, South America, Middle East and Africa)- Global Forecast to 2028 published by Technavio, the market size is estimated to grow by USD 252.8 million, at a CAGR of 12.62% during the forecast period. The automotive industry is experiencing a shift towards advanced performance-enhancing technologies, with a focus on improving driving comfort, enjoyment, and safety. Automakers are investing in research and development to incorporate such systems into their vehicles, including the braking system. Traditional organic compounds and metals have long been used in automotive brake pads, but carbon ceramic brake rotors offer superior performance. These high-tech brake calipers, commonly found in performance and sports cars, provide enhanced stopping power and durability, making them a desirable addition for discerning consumers. The adoption of carbon ceramic brake rotors represents a significant advancement in the automotive braking system, offering improved efficiency and performance..
Browse market data tables, figures, and in-depth TOC on “Automotive Carbon Ceramic Brake Rotors Market” by Application (Passenger cars, Commercial vehicles) Type (Drilled rotors, Slotted rotors) Geography (Europe, North America, APAC, South America, Middle East and Africa) Global Forecast to 2028. Download Free Sample
By Application, the Passenger cars segment is projected to dominate the market size in 2024
The passenger car segment represents a significant market share in the global automotive carbon ceramic brake rotors industry. Manufacturers in this sector increasingly opt for carbon fiber-reinforced ceramic matrix composites to produce these advanced brake rotors. Compared to traditional cast iron rotors, carbon ceramic rotors provide superior braking performance, extended durability, and reduced weight. Notably, high-performance and luxury passenger car manufacturers have embraced this technology, with the Porsche 911 GT3 RS as a prime example. This iconic sports car, renowned for its exceptional handling and performance, is equipped with carbon ceramic brake rotors, delivering superior stopping power even under extreme driving conditions.
By Type, Drilled rotors segment is expected to hold the largest market size for the year 2024
The carbon ceramic brake rotors market is experiencing significant growth, driven by the adoption of advanced braking systems in the automotive industry. Notably, the drilled rotors segment is poised for dominance due to its distinctive advantages. These advantages include enhanced heat dissipation and superior thermal resistance, attributed to the presence of drilled holes. Sports car manufacturers have recognized the reliability and durability of drilled rotors, leading to their widespread use. Consequently, the global market for carbon ceramic brake rotors is anticipated to thrive during the forecast period.
Europe is forecasted to hold the largest market size by region in 2024
The Automotive Carbon Ceramic Brake Rotors market represents a significant growth opportunity for automotive component suppliers. These high-performance rotors offer superior heat dissipation and durability compared to traditional cast iron rotors. OEMs and aftermarket players are increasingly adopting carbon ceramic rotors to cater to the rising demand for enhanced braking performance and longer lifespan in luxury and high-performance vehicles. The market is expected to grow steadily due to increasing consumer preference for improved braking efficiency and safety features.
The Automotive Carbon Ceramic Brake Rotors Market growth and forecasting report also includes detailed analyses of the competitive landscape of the market growth and forecasting and information about 20 market companies, including:
.
For insights on company offerings- Request a sample report!
Research Analysis Overview
The Automotive Carbon Ceramic Brake Rotors market is witnessing significant growth due to the increasing demand for high-performance materials in the automotive sector. Carbon ceramic brake rotors are made of carbon fibers, powders, and a resin binder, available in both longfiber and shortfiber discs based on the fiber state type. Longfiber discs offer superior thermal performance, wear resistance, and reliability, making them ideal for high-performance applications such as drag racing and aerospace braking. In contrast, shortfiber discs provide better corrosion resistance and heat resistance, ensuring durability and longevity in extreme conditions. Carbon ceramic brake rotors deliver exceptional braking performance with minimal brake fade, making them a preferred choice among consumers seeking improved braking efficiency and reduced stopping distances. The adoption rate of carbon ceramic brake rotors is increasing due to their high-performance characteristics, including high-temperature stability, low weight, and excellent friction properties. Aluminum composite rotors are also gaining popularity due to their lightweight and heat dissipation properties. However, carbon ceramic rotors' superior braking performance and durability make them a more desirable option for high-performance vehicles. In conclusion, the automotive carbon ceramic brake rotors market is expected to grow significantly due to the increasing demand for high-performance materials in the automotive sector, consumer preferences for improved braking performance, and the development of advanced materials such as carbon fibers, powders, and resins.
Market Research Overview
The Automotive Carbon Ceramic Brake Rotors market is witnessing significant growth due to the increasing demand from automotive manufacturers for high-performance braking systems. Carbon ceramic brake rotors offer superior mechanical properties such as high thermal conductivity, wear resistance, and heat dissipation, making them ideal for high-performance vehicles. Two main types of carbon ceramic discs are used in the automotive industry: longfiber and shortfiber discs. The fiber state type significantly affects the disc's thermal performance, maximum braking capacity, and reliability. Decision-makers in the automotive sector are considering microeconomic factors such as production norms, system integration, and consumer preferences when deciding to adopt carbon ceramic brakes. Utilities vehicles and commercial vehicles are also adopting carbon ceramic brakes due to their longevity and reliability. Motorsport technology, including F1 manufacturers and racing cars, has been using carbon ceramic brakes for years due to their superior braking performance and heat resistance. However, the high cost of production and corrosion resistance concerns limit their widespread adoption in the automotive industry. Aluminum composite, aluminum, and steel brakes are alternative options for automotive manufacturers. These materials offer heat resistance, durability, and friction properties, making them suitable for various transportation capabilities. The automotive sector's growth and automation trends are driving the demand for high-performance materials such as composite carbon, fibers, powders, and resin in the production of carbon ceramic brakes. Aerospace braking systems are also using carbon ceramic materials due to their high-performance properties. In conclusion, carbon ceramic brake rotors offer superior braking performance, thermal performance, and durability, making them an attractive option for automotive manufacturers. However, the high cost of production and corrosion resistance concerns limit their widespread adoption. Alternative materials such as aluminum composite, aluminum, and steel are also being considered for their cost-effectiveness and performance properties. Data analysis and economic growth trends will continue to influence the decision-making process for automotive manufacturers when it comes to adopting carbon ceramic brakes.
Contacts
Technavio Research
Jesse Maida
Media & Marketing Executive
US: +1 844 364 1100
UK: +44 203 893 3200
Email: media@technavio.com
Website: www.technavio.com/
