Aerospace and Defense Carbon Brakes Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Aircraft Type (Commercial Aircrafts, Regional Jets, Business Jets, Military Aircrafts), By Type (Chemical Vapor Infiltration, Liquid Phase Infiltration), By Sales Channel (OEM, Aftermarket), By Region, Competition, 2019-2029F
Published Date: March - 2025 | Publisher: MIR | No of Pages: 280 | Industry: Aerospace and Defense | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request Customization| Forecast Period | 2025-2029 |
| Market Size (2023) | USD 340 Million |
| CAGR (2024-2029) | 6.30% |
| Fastest Growing Segment | Regional Jets |
| Largest Market | North America |
| Market Size (2029) | USD 488.80 Million |
Market Overview
Global Aerospace and Defense Carbon Brakes Market was worth USD 340 million in 2023 and is expected to forecast strong growth during the forecast period with a CAGR of 6.30% from 2023 to 2029.
Aviation and Defense Advanced braking systems referred to as carbon brakes are utilized in military vehicles and aircraft to save weight, enhance fuel efficiency, and provide improved performance. These carbon brakes provide enhanced stopping power and are designed to withstand high temperatures compared to brakes constructed from traditional steel. Several factors are driving the market's significant increase in aerospace and defense carbon brakes. The market is increasing mainly because of the increasing demand for strong and light braking systems that improve aircraft performance and fuel efficiency. The growth in the market is also being supported by the growing aviation industry and the increasing acquisition of defense and military aircraft. In addition, the need for lower maintenance and more stringent emissions regulations are fueling the use of carbon brakes.
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Market Drivers
Pursuit of Lightweight Solutions
One of the primary drivers propelling the Aerospace and Defense Carbon Brakes market is the industry's constant pursuit of lightweight solutions. Weight reduction is a critical factor in aviation as it directly impacts fuel efficiency, overall aircraft performance, and operational costs. Carbon brakes, made from carbon-carbon composite materials, are significantly lighter than traditional steel brakes. This weight advantage contributes to enhanced fuel efficiency, reduced emissions, and increased payload capacity, making them a preferred choice for modern aircraft.
The economic implications of weight reduction through carbon brakes extend beyond operational efficiency. With airlines striving to maximize profitability, every pound saved translates into reduced fuel consumption and operational costs. The adoption of Aerospace and Defense Carbon Brakes aligns with the economic imperatives of the aviation industry, offering a balance between performance improvement and cost-effectiveness. As the demand for fuel-efficient aircraft continues to rise, carbon brakes emerge as a strategic component in achieving these economic goals.
Advancements in Material Science
Advancements in material science, particularly in the realm of carbon-carbon composites, drive the innovation and adoption of Aerospace and Defense Carbon Brakes. Carbon-carbon composites, consisting of carbon fibers reinforced within a carbon matrix, exhibit exceptional properties such as high strength, heat resistance, and low thermal expansion. These characteristics make them ideal for applications requiring robust and reliable braking systems. The evolution of carbon-carbon composite technology contributes to the continuous improvement of braking performance and durability.
Carbon brakes excel in high-performance and demanding environments due to their superior thermal stability. The ability to withstand extreme temperatures during rapid deceleration is a critical factor in their effectiveness. Advancements in material science enable the development of carbon brakes that can handle higher energy dissipation, reducing the risk of overheating and ensuring consistent braking performance even in intense operational conditions. This enhanced thermal stability is a key driver in the growing adoption of Aerospace and Defense Carbon Brakes.
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Demand for Improved Operational Efficiency
Operational efficiency is a paramount consideration in the aviation industry, and Aerospace and Defense Carbon Brakes contribute to achieving improved turnaround times. The reduced weight of carbon brakes allows for quicker cooling after landing, enabling faster aircraft turnaround between flights. Shorter turnaround times are critical for airlines seeking to maximize aircraft utilization and meet demanding schedules. The efficiency gains associated with carbon brakes positively impact overall fleet management and operational performance.
The longevity of Aerospace and Defense Carbon Brakes significantly exceeds that of traditional steel brakes. This extended brake life translates into reduced maintenance requirements and downtime for aircraft. Airlines benefit from decreased maintenance costs and increased availability of aircraft for revenue-generating flights. The demand for improved operational efficiency is a driving force behind the industry's inclination towards carbon brakes as a solution that balances performance and cost-effectiveness over the long term.
Environmental Sustainability
The global aviation industry's commitment to environmental sustainability is influencing the adoption of Aerospace and Defense Carbon Brakes. Carbon brakes contribute to emission reduction goals through their lightweight design, which directly impacts fuel efficiency and, consequently, greenhouse gas emissions. As airlines and defense organizations strive to meet stringent environmental regulations and reduce their carbon footprint, the deployment of carbon brakes aligns with sustainability initiatives, making them a preferred choice for eco-conscious operators.
The production of carbon brakes involves processes that are generally more environmentally friendly compared to traditional steel brakes. The manufacturing of carbon composites typically requires less energy and generates fewer pollutants. As sustainability becomes a focal point for the aerospace industry, the use of Aerospace and Defense Carbon Brakes aligns with green manufacturing practices, contributing to the overall environmental stewardship of the aviation sector.
Technological Integration for Enhanced Performance
Technological integration plays a pivotal role in enhancing the performance of Aerospace and Defense Carbon Brakes, particularly in the realm of thermal management. Advanced thermal management systems, including active cooling solutions and predictive analytics, optimize the dissipation of heat generated during braking. These systems ensure that carbon brakes operate within optimal temperature ranges, maximizing their efficiency and lifespan. The integration of sophisticated thermal management technologies is a key driver in elevating the overall performance and reliability of carbon brakes.
Aerospace and Defense Carbon Brakes are increasingly integrated into Aircraft Health Monitoring Systems (AHMS), allowing real-time monitoring of braking system performance. AHMS enable operators to track brake wear, detect potential issues, and implement predictive maintenance strategies. The integration of carbon brakes with AHMS contributes to improved reliability, reduced unscheduled maintenance events, and enhanced overall operational safety.
For instance, In June 2024, Avianca selected Collins Aerospace, a subsidiary of RTX, to supply wheels and brakes for its new fleet of 103 A320neo aircraft over the next 15 years. The Colombian airline, already using Collins wheels and brakes for its A320ceo and A320neo aircraft, made the decision to continue the partnership. Collins Aerospace's brakes, made with DURACARB carbon friction material, offer a longer lifespan than competitors’ products. This results in reduced maintenance needs, fewer service interruptions, cost savings, and improved operational efficiency for Avianca.
Key Market Challenges
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High Initial Costs and Replacement Expenses
One of the primary challenges faced by the global aerospace and defense carbon brakes market is the high initial costs associated with the adoption of carbon brake systems. Carbon brakes are renowned for their superior performance and durability, offering advantages such as reduced weight, enhanced heat dissipation, and extended service life compared to traditional steel brakes. However, the advanced materials and manufacturing processes involved in producing carbon brakes contribute to elevated upfront costs.
The aerospace and defense industry operates within a cost-sensitive environment, and manufacturers, as well as operators, are often constrained by budget considerations. The initial investment required to procure and install carbon brake systems can be a significant barrier, especially for smaller operators or military organizations with limited budgets. This challenge is further compounded by the fact that carbon brakes, while durable, eventually require replacement. The expense associated with replacing worn-out or damaged carbon brakes poses an ongoing financial challenge for aircraft operators, necessitating careful cost-benefit analysis and long-term budget planning.
The high costs associated with carbon brake systems can deter some operators from initially investing in these advanced braking technologies, especially when alternative braking solutions, though less performance-oriented, may offer a more budget-friendly option. As a result, the aerospace and defense carbon brakes market must address the challenge of convincing potential customers of the long-term value and benefits that justify the initial investment.
Complexity of Manufacturing and Technical Expertise
The manufacturing process for carbon brakes involves intricate procedures and specialized technical expertise, contributing to the complexity of production. The carbon composite materials used in brake systems require precision in fabrication, molding, and curing processes. The challenges arise not only in the manufacturing of the brake components but also in the integration of these components into the broader braking system of an aircraft or defense platform.
The complexity of manufacturing carbon brakes requires facilities equipped with advanced technologies, including autoclaves for curing composite materials and high-precision machining equipment. This level of sophistication can be a barrier for new entrants to the market or smaller manufacturers with limited resources. Established companies with the necessary technical expertise have a competitive advantage, but they must continually invest in research and development to stay ahead of evolving industry requirements and maintain a leading position in the market.
The technical expertise required for the proper installation, maintenance, and troubleshooting of carbon brake systems is a challenge for operators and maintenance crews. Unlike traditional steel brakes, carbon brakes demand a specialized skill set for inspection and maintenance, including the ability to assess wear patterns, manage thermal loads, and ensure proper bedding procedures. This need for specialized knowledge adds to the overall complexity of adopting and managing carbon brake systems in the aerospace and defense sector.
Limited Applicability for Certain Aircraft Types
While carbon brakes offer numerous advantages, their applicability is not universal across all types of aircraft. Certain smaller and regional aircraft, particularly those with lower takeoff weights and less demanding operational profiles, may not realize significant benefits from the adoption of carbon brakes. In these cases, the cost-effectiveness and performance gains may not justify the investment in carbon brake technology.
Some military aircraft, especially those designed for specific mission profiles such as short takeoff and landing (STOL) capabilities, may have unique braking requirements that carbon brakes do not fully address. The variability in operational needs and the diverse range of aircraft types in both commercial and military fleets contribute to the challenge of determining the optimal braking solution for each specific application.
The limited applicability for certain aircraft types poses a challenge for manufacturers in terms of market penetration and establishing a comprehensive customer base. While carbon brakes may be a standard choice for large commercial airliners, expanding their market share to cover a broader spectrum of aircraft requires addressing the nuanced requirements and considerations of different segments within the aerospace industry.
Regulatory Compliance and Certification Challenges
The aerospace industry operates within a highly regulated environment, with stringent standards set by aviation authorities such as the Federal Aviation Administration (FAA) in the United States and the European Union Aviation Safety Agency (EASA) in Europe. Obtaining the necessary certifications for carbon brake systems is a complex and time-consuming process that poses a significant challenge for manufacturers in the aerospace and defense carbon brakes market.
Regulatory compliance involves rigorous testing, documentation, and validation to ensure that carbon brake systems meet the safety and performance standards set by aviation authorities. The certification process includes evaluating factors such as braking performance, heat dissipation, wear characteristics, and compatibility with specific aircraft types. Meeting these standards requires extensive research and development efforts, testing protocols, and collaboration with regulatory bodies.
s aviation authorities continue to update and refine safety regulations, manufacturers face the ongoing challenge of keeping pace with evolving certification requirements. Changes in standards, new testing methodologies, and the introduction of additional safety criteria further contribute to the complexity of regulatory compliance. This challenge is particularly pronounced for smaller or newer entrants in the aerospace and defense carbon brakes market, as the certification process requires substantial financial and technical resources.
Competition from Alternative Braking Technologies
The global aerospace and defense carbon brakes market faces competition from alternative braking technologies, including traditional steel brakes and emerging solutions such as electric braking systems. While carbon brakes offer superior performance in terms of weight reduction, heat dissipation, and overall durability, alternative technologies may present cost advantages or cater to specific operational requirements.
Traditional steel brakes remain a viable and cost-effective option, especially for smaller aircraft and applications where the benefits of carbon brakes may be less pronounced. Steel brakes, while heavier, are simpler in design and have a well-established track record in the aerospace industry. Operators, particularly those with smaller fleets or less demanding operational profiles, may opt for traditional steel brakes to minimize upfront costs and maintenance complexities. Additionally, the emergence of electric braking systems, which utilize electrically actuated brakes powered by electric motors, poses a potential challenge to the dominance of carbon brakes.
Key Market Trends
Fleet Modernization and Growth of Commercial Aviation
One of the major trends influencing the world's aerospace and defense carbon brakes market is the growing demand for lightweight and high-performance materials. Carbon brakes are increasingly becoming the preferred material for aircraft and defense as they boast a very high strength-to-weight ratio. As the aerospace sector emphasizes fuel efficiency, carbon brakes are important in lowering the overall weight of aircraft, leading to less fuel consumption and operating expenses. The need for high-performance materials is also present in defense systems, where maneuverability and quick deceleration are essential. Carbon brakes have greater thermal stability and performance under high-temperature conditions, making them a top trend in seeking advanced materials for optimizing the efficiency and functionality of aerospace and defense systems.
The use of carbon brakes is part of a wider industry trend towards lightweighting, fueled by environmental pressures, regulatory requirements, and the economic advantages of lower fuel burn. With manufacturers and operators looking to maximize aircraft performance and comply with demanding efficiency targets, the worldwide aerospace and defense carbon brakes market is experiencing a long-term trend towards the adoption of lightweight materials that are both strong and resilient.
Fleet Modernization and Growth of Commercial Aviation
Growth of the global aerospace and defense carbon brakes market is further fueled by the growth of commercial aviation and the continued trend of fleet modernization. The global demand for air travel has increased continuously, pushing the commercial airline fleets to expand continuously. As a response to this expansion, airlines are increasingly focusing on upgrading their fleets to maximize operational efficiency, lower maintenance, and meet environmental standards.Carbon brakes are instrumental in upgrading aircraft fleets, achieving a balance of weight reduction, durability, and affordability. With airlines phasing out older planes and replacing them with newer, more efficient aircraft, the need for carbon brakes is growing. These brakes help in better aircraft performance, reduced landing distances, and overall safety. The industry is seeing a trend where airlines are giving top priority to carbon brake technology while choosing components for their upgraded fleets, fueling the aerospace and defense carbon brakes market growth.
For example, In September 2023, Safran Landing Systems Kentucky reported an expansion of its facility in Boone County. This location is dedicated to manufacturing carbon composite brakes for large commercial and military aircraft.
Growing Demand for Lightweight and High-Performance Materials
One of the major trends influencing the world's aerospace and defense carbon brakes market is the growing demand for lightweight and high-performance materials. Carbon brakes are increasingly becoming the preferred material for aircraft and defense as they boast a very high strength-to-weight ratio. As the aerospace sector emphasizes fuel efficiency, carbon brakes are important in lowering the overall weight of aircraft, leading to less fuel consumption and operating expenses. The need for high-performance materials is also present in defense systems, where maneuverability and quick deceleration are essential. Carbon brakes have greater thermal stability and performance under high-temperature conditions, making them a top trend in seeking advanced materials for optimizing the efficiency and functionality of aerospace and defense systems.
The use of carbon brakes is part of a wider industry trend towards lightweighting, fueled by environmental pressures, regulatory requirements, and the economic advantages of lower fuel burn. With manufacturers and operators looking to maximize aircraft performance and comply with demanding efficiency targets, the worldwide aerospace and defense carbon brakes market is experiencing a long-term trend towards the adoption of lightweight materials that are both strong and resilient.
Fleet Modernization and Growth of Commercial Aviation
Growth of the global aerospace and defense carbon brakes market is further fueled by the growth of commercial aviation and the continued trend of fleet modernization. The global demand for air travel has increased continuously, pushing the commercial airline fleets to expand continuously. As a response to this expansion, airlines are increasingly focusing on upgrading their fleets to maximize operational efficiency, lower maintenance, and meet environmental standards.Carbon brakes are instrumental in upgrading aircraft fleets, achieving a balance of weight reduction, durability, and affordability. With airlines phasing out older planes and replacing them with newer, more efficient aircraft, the need for carbon brakes is growing. These brakes help in better aircraft performance, reduced landing distances, and overall safety. The industry is seeing a trend where airlines are giving top priority to carbon brake technology while choosing components for their upgraded fleets, fueling the aerospace and defense carbon brakes market growth.
For example, In September 2023, Safran Landing Systems Kentucky reported an expansion of its facility in Boone County. This location is dedicated to manufacturing carbon composite brakes for large commercial and military aircraft.
Technological Advancements and Innovation in Carbon Brake Systems
There are ongoing technological developments and innovations in carbon brake systems in the global aerospace and defense carbon brakes market. Manufacturers are spending on research and development to improve the performance, durability, and efficiency of carbon brakes in line with the changing demands of the aerospace and defense industries. One such trend is the incorporation of next-generation materials, including silicon carbide, in carbon brake compositions. Silicon carbide improves the thermal conductivity and wear resistance of carbon brakes, enabling enhanced performance at high temperatures and extended service life. Further, innovations in carbon composite technologies like the application of 3D-woven carbon fibers improve the Structural integrity and heat dissipation in carbon brake systems. Innovation also occurs in brake control systems, where intelligent algorithms and sensor integration improve the efficiency and safety of braking operations overall. These developments tackle problems like brake fade, maximize heat dissipation during high-energy landings, and enhance the reliability of carbon brake systems across many operational environments.
Increasing Focus on Sustainable Aviation
A significant trend in the aerospace sector driving the carbon brakes market is the increasing focus on sustainable aviation. As concern for environmental effect and carbon footprint reduction grows, the aviation industry is looking at green technologies and materials. Carbon brakes, in contrast to steel brakes, are better in that they have less particulate emission, lower wear rates, and overall environmental efficiency. The attempt by the aviation industry to go carbon neutral and minimize greenhouse gas emissions is complemented by the advantages provided by carbon brakes. With airlines and aircraft operators increasingly focusing on sustainability, the implementation of carbon brakes becomes a part of their overall environmental strategies. This is especially true within the context of regulatory policies that encourage or require the adoption of sustainable technologies. Carbon brakes, with their green credentials, are well-placed as a central component of the overall industry move towards sustainable aviation practices.
Growing Military Aircraft Procurement and Upgrades
The international aerospace and defense carbon brakes market is going through a trend fueled by growing military aircraft acquisitions and modernization. Defense agencies globally are making investments in upgrading their aircraft fleets to ensure operational superiority and respond to changing security threats. Carbon brakes are an integral part of military aviation with advantages of decreased landing distance, enhanced heat dissipation, and superior overall performance. Military aircraft, which require quick take-offs and landings, stand to gain much from the light weight and high performance characteristics of carbon brakes. The trend is seen in both new aircraft purchases and retrofit programs for current military fleets. Carbon brakes are part of what makes military aircraft agile and responsive, fitting the demands of contemporary warfare situations.
As defense budgets prioritize funds for upgrading and enhancements, the aerospace and defense carbon brakes market is expected to grow. Producers targeting military applications are developing carbon brake solutions that can meet the unique requirements of defense platforms, such as compatibility with advanced avionics, stealth technologies, and other special features.
There are ongoing technological developments and innovations in carbon brake systems in the global aerospace and defense carbon brakes market. Manufacturers are spending on research and development to improve the performance, durability, and efficiency of carbon brakes in line with the changing demands of the aerospace and defense industries. One such trend is the incorporation of next-generation materials, including silicon carbide, in carbon brake compositions. Silicon carbide improves the thermal conductivity and wear resistance of carbon brakes, enabling enhanced performance at high temperatures and extended service life. Further, innovations in carbon composite technologies like the application of 3D-woven carbon fibers improve the Structural integrity and heat dissipation in carbon brake systems. Innovation also occurs in brake control systems, where intelligent algorithms and sensor integration improve the efficiency and safety of braking operations overall. These developments tackle problems like brake fade, maximize heat dissipation during high-energy landings, and enhance the reliability of carbon brake systems across many operational environments.
Increasing Focus on Sustainable Aviation
A significant trend in the aerospace sector driving the carbon brakes market is the increasing focus on sustainable aviation. As concern for environmental effect and carbon footprint reduction grows, the aviation industry is looking at green technologies and materials. Carbon brakes, in contrast to steel brakes, are better in that they have less particulate emission, lower wear rates, and overall environmental efficiency. The attempt by the aviation industry to go carbon neutral and minimize greenhouse gas emissions is complemented by the advantages provided by carbon brakes. With airlines and aircraft operators increasingly focusing on sustainability, the implementation of carbon brakes becomes a part of their overall environmental strategies. This is especially true within the context of regulatory policies that encourage or require the adoption of sustainable technologies. Carbon brakes, with their green credentials, are well-placed as a central component of the overall industry move towards sustainable aviation practices.
Growing Military Aircraft Procurement and Upgrades
The international aerospace and defense carbon brakes market is going through a trend fueled by growing military aircraft acquisitions and modernization. Defense agencies globally are making investments in upgrading their aircraft fleets to ensure operational superiority and respond to changing security threats. Carbon brakes are an integral part of military aviation with advantages of decreased landing distance, enhanced heat dissipation, and superior overall performance. Military aircraft, which require quick take-offs and landings, stand to gain much from the light weight and high performance characteristics of carbon brakes. The trend is seen in both new aircraft purchases and retrofit programs for current military fleets. Carbon brakes are part of what makes military aircraft agile and responsive, fitting the demands of contemporary warfare situations.
As defense budgets prioritize funds for upgrading and enhancements, the aerospace and defense carbon brakes market is expected to grow. Producers targeting military applications are developing carbon brake solutions that can meet the unique requirements of defense platforms, such as compatibility with advanced avionics, stealth technologies, and other special features.
Segmental Insights
Aircraft Type Analysis
The high growth of the regional jets segment in the Aerospace and Defense Carbon Brakes Market is due to a number of factors. The increasing need for regional connectivity has encouraged airlines to increase their fleets with regional jets, which are best suited for short-haul flights. This higher usage of regional jets requires sophisticated and dependable braking systems, thereby fueling demand for carbon brakes, which are renowned for their high performance and longevity.
Regional jets are gaining popularity because of their efficiency and lower operating expenses in comparison to larger aircraft. Airlines are concentrating on making their operations more efficient by using aircraft that can offer improved fuel efficiency and lower maintenance expenses. Carbon brakes, with their longer life and improved braking capability, play a major role in these operational efficiencies. Their capacity to handle higher temperatures and deliver consistent performance further adds to the attractiveness of regional jets.
Moreover, the replacement and modernization of older aircraft in the regional fleet are driving the uptake of carbon brakes. With airlines seeking to comply with strict environmental regulations and enhance overall fleet performance, they are investing in newer regional jet models that come with advanced technologies, such as carbon brakes. Not only do these brakes minimize replacement and maintenance frequency, but they also support the industry's sustainability agenda by minimizing carbon emissions.
The advances in carbon brake material technology and production processes also contribute to the segment's growth. Technologies like advanced composite materials and innovative manufacturing methods have enhanced the efficiency and reliability of carbon brakes. These advances position them as the preferred option for regional jets, which fly in varied and frequently challenging environments.
The most rapid expansion of the regional jets segment in the Aerospace and Defense Carbon Brakes Market is spurred by the rising need for regional connectivity, the cost-effectiveness and efficiency of regional jets, the fleet modernization, and carbon brake technology advancement. All these factors together push the segment towards strong growth.
Regional Insights
North America leads the Aerospace and Defense Carbon Brakes Market on account of various key reasons. The aerospace and defense sector of the region is strong, with top aircraft producers such as Boeing and Lockheed Martin. Both these companies have their headquarters in North America and possess large manufacturing and development bases, which result in the increased need for advanced carbon brake systems for commercial as well as military aviation applications.
High spending on research and development (R&D) in the aerospace industry is another principal factor. The region has various research institutions and firms that invest heavily in ongoing innovation and enhancing carbon brake technology. This commitment to innovation puts the region in a position where it leads all other developments, offering highly effective and long-lasting carbon brakes to suit the very high standards required by contemporary airplanes.
The significant military presence and defense spending in North America go a long way in ensuring that the market has a dominant hold. The United States Department of Defense spends hefty budgets on acquiring and maintaining cutting-edge military aircraft. The military aircraft, comprising fighter jets, transport planes, and UAVs, demand top-class braking systems, thereby adding to the need for carbon brakes in the continent.
The large airline network and heavy air traffic also support the market. North America boasts a mature commercial aviation industry with many airlines flying large fleets of aircraft. The demand for durable, long-lasting brakes to provide safety and operational efficiency in this high-traffic environment supports the demand for carbon brakes.
Besides, the fact that major carbon brake producers are established in North America is a strategic benefit. Some of the players such as Honeywell, Collins Aerospace, and Meggitt have major presence in the continent, guaranteeing a consistent flow of sophisticated carbon brake systems to satisfy the expanding demand.
North America leads the Aerospace and Defense Carbon Brakes Market due to its major aerospace manufacturers, predominant R&D spending, significant defense budgets, widespread airline networks, and availability of prominent carbon brake manufacturers. All of these cumulatively guarantee leadership for the region in this key market.
Recent Devlopments
- In January 2023, American Airlines partnered with Safran Landing Systems to replace the brakes on its Boeing 737 NG aircraft with carbon fiber brakes. This upgrade aimed to bring operational savings to the aircraft. By opting for carbon fiber brakes, which are over 320 kg lighter than steel brakes, American Airlines sought to advance its sustainability goals. The upgrade was projected to reduce emissions by up to 77 tonnes on Boeing 737 NG aircraft. The carbon fiber brakes provided by Safran offered greater durability and significant operational improvements. Both the 737 NG and 737 MAX aircraft were eligible for this brake upgrade. This partnership with Safran supported American Airlines' commitment to achieving zero emissions by 2050, aligning with broader efforts to decarbonize the airline industry.
- In September 2023, RTX expanded its manufacturing presence in Mississippi. Raytheon, a division of RTX, initiated a 17,000-square-foot expansion at its Consolidated Manufacturing Center in Forest. This project, representing a $50 million investment, is expected to create 100 high-skilled jobs over the next five years.
- In July 2024, Collins Aerospace announced the relocation of its Singapore plant to a new $250 million facility in Seletar Aerospace Park. Construction will start in late 2025, with completion expected by 2027. Operations will move from the current Bedok site to the new location, with production beginning in 2028. Dual production capabilities will be maintained at Bedok during the transition.
Key Market Players
- ATR Service RH
- The Boeing Company
- Embraer S.A.
- Airbus SE
- Air China Limited
- Delta Air Lines, Inc
- Deutsche Lufthansa AG
- Bombardier Inc
- Singapore Airlines Limited (“SIA”)
- Honeywell International Inc
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