Aerospace And Defense Braking Control System Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Aircraft Type (Commercial Aircrafts, Regional Jets, Business Jets, Military Aircrafts), By Product Type (Anti-Skid Brake Control Systems, Auto Braking Brake Control Systems, Brake-By-Wire Brake Control Systems and Others), By Sales Channel (OEM, Aftermarket), By Region, Competition, 2020-2030F

Market Overview

The Global Aerospace And Defense Braking Control System Market will grow from USD 3.45 Billion in 2024 to USD 5.20 Billion by 2030 at a 7.08% CAGR. Aerospace and Defense Braking Control Systems represent critical components engineered for managing aircraft deceleration, steering, and anti-skid functionalities across commercial and military platforms. Market expansion is fundamentally supported by the continuous need for global fleet modernization and expansion within civil aviation, alongside increasing defense budgets that drive demand for new military aircraft programs and upgrades. For instance, according to the General Aviation Manufacturers Association, in 2024, preliminary general aviation aircraft deliveries reached a value of $31.2 billion, reflecting a 13.3% increase over the prior year, directly influencing the demand for new braking system installations.

Nevertheless, a notable impediment to market growth is the ongoing susceptibility to global supply chain vulnerabilities, which can introduce delays and cost fluctuations in the procurement of essential raw materials and specialized components necessary for manufacturing these advanced systems.

Key Market Drivers

The global aerospace and defense braking control system market is primarily driven by the increasing production and delivery of commercial and military aircraft. This fundamental driver generates consistent demand for new braking installations as original equipment on newly manufactured platforms. For instance, according to company officials, Lockheed Martin plans to deliver between 170 and 190 F-35 fighter jets in 2025, underscoring robust military aircraft manufacturing activity. This demand is further supported by the ongoing modernization and expansion of global aircraft fleets. Existing aircraft are continually upgraded to enhance performance, safety, and operational efficiency, necessitating the replacement of older systems with advanced braking solutions. According to an article in Reise- und turverden, in November 2025, Emirates Airlines is undertaking a $6 billion retrofit and modernization plan for its A380 fleet, involving extensive component upgrades for extended operational life.

These concurrent trends cultivate a dynamic market environment, prompting significant investment in advanced braking system technologies focused on superior performance, reduced weight, and heightened safety. Such strategic commitment to expanding production capacity and technological advancement is evident across the sector. According to a press release by RTX, in May 2024, Collins Aerospace initiated a $200 million investment to expand its carbon brake production facility in Spokane, Washington, specifically addressing the escalating demand for commercial and military braking applications. This capital allocation reflects the industry's dedication to supporting evolving global fleet requirements and driving innovation in braking control systems.

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Key Market Challenges

A significant challenging factor for the Global Aerospace And Defense Braking Control System Market is the persistent susceptibility to global supply chain vulnerabilities. These vulnerabilities frequently introduce delays and generate cost fluctuations in the procurement of essential raw materials and specialized components critical for the manufacturing of advanced braking systems. Such disruptions necessitate extended lead times for parts, leading to production bottlenecks and increased operational expenses for system manufacturers.

This instability directly impedes market growth by delaying the integration of new braking control systems into aircraft. Production slowdowns in aircraft manufacturing, often stemming from broader supply chain issues, consequently postpone the demand for these vital components. For instance, according to the International Air Transport Association, the worldwide commercial aircraft backlog reached a historic high of more than 17,000 aircraft in 2024, significantly surpassing prior years. This substantial backlog demonstrates prolonged aircraft delivery schedules, directly restricting the opportunities for new braking system installations and impacting market expansion.

Key Market Trends

Electrification of braking systems signifies a pivotal technological evolution, shifting from hydraulic to electric power for aircraft deceleration. This transition offers substantial benefits, including significant weight reduction by eliminating hydraulic components, improved energy efficiency, and simplified maintenance procedures. Such systems also enhance braking precision and responsiveness, contributing to overall flight safety. According to the Aerospace Industries Association, the US aerospace and defense exports reached a total value of $138.7 billion from 2023 to 2024, indicating a dynamic market for advanced components, including those leveraging electrification. Safran Electrical & Power achieved world-first EASA certification for its ENGINeUS 100 electric motor in February 2025, underscoring the growing maturity of electric actuation technology across aerospace applications. This development creates new opportunities for component suppliers and system integrators.

Implementation of predictive maintenance for braking systems revolutionizes aircraft operations through real-time data analytics and sensor networks to anticipate component failures. This enables proactive maintenance, minimizing unscheduled downtime and significantly reducing operational costs. Continuous monitoring of indicators like brake wear and temperature allows operators to optimize maintenance intervals, extend part life, and enhance fleet availability. According to the International Air Transport Association, global airline profitability forecasts improved in April 2025, partly driven by efforts to enhance operational efficiency through advanced maintenance practices. British Airways, in February 2024, rolled out its E-Logs platform, a cutting-edge engineering system using real-time data to predict aircraft maintenance issues across its fleet. This trend fosters demand for sophisticated diagnostic software and specialized sensors.

Segmental Insights

The commercial aircraft segment is a primary driver within the Global Aerospace And Defense Braking Control System Market, exhibiting significant growth due to several interconnected factors. The increasing global demand for air travel directly necessitates expanded commercial aircraft fleets and higher aircraft production rates. This growth is further propelled by airlines' continuous efforts to modernize their fleets, seeking enhanced fuel efficiency, safety, and operational performance. Consequently, there is a rising adoption of advanced braking control systems, including those incorporating lighter, more durable materials such as carbon composites and sophisticated electronic control technologies. These innovations, crucial for meeting stringent aviation safety regulations, deliver improved reliability and reduced maintenance requirements.

Regional Insights

North America leads the global aerospace and defense braking control system market due to a robust ecosystem encompassing major aircraft manufacturers and established braking system suppliers. The region benefits from a highly mature aerospace supply chain and substantial activity across commercial and defense aviation sectors. Continuous investments in advanced braking control technologies, coupled with significant defense spending and ongoing modernization programs, fuel demand for innovative solutions. Furthermore, stringent regulatory oversight from bodies such as the Federal Aviation Administration and the Department of Defense mandates enhanced safety features, thereby reinforcing the region's dominant position and driving the integration of sophisticated braking control systems.

Recent Developments

• In June 2025, Safran Landing Systems inaugurated new industrial facilities at its Molsheim site in Alsace, France, dedicated to landing and braking systems. This investment aimed to modernize and increase the site's production and maintenance capabilities to support the rising production rates of aircraft manufacturers and the growing Maintenance, Repair and Overhaul (MRO) demands from airlines. The new facilities included ExcelFAB, an 840 square meter building equipped with advanced machining centers for critical landing system parts, and new surface treatment lines for wheels, hydraulic rings, and other components for wheel and brake assemblies.

• In October 2024, Parker Aerospace introduced its Advanced NuCarb® carbon brake and wheel system for the Airbus A321neo aircraft. This new product provides operators with an additional option for aircraft entering final assembly in 2026. The innovative solution, leveraging Parker's NuCarb® carbon technology, was designed to be certified for the highest A321neo maximum take-off weight, offering a reliable and cost-efficient braking solution. The manufacturing of this next-generation technology takes place at a modern carbon manufacturing facility, and the equipment will also be available for in-service retrofits for the existing A321neo fleet.

• In June 2024, Collins Aerospace secured an agreement with Avianca, a prominent Colombian airline, to provide wheels and brakes for its new fleet of 103 Airbus A320neo aircraft over the next 15 years. Collins Aerospace already supplied wheels and brakes for Avianca's existing A320ceo and A320neo fleets. The braking systems supplied feature DURACARB® carbon friction material, which is noted for offering a longer operational life compared to other products. This characteristic was expected to result in reduced maintenance requirements, fewer service interruptions, and improved operational efficiencies for the airline.

• In May 2024, Collins Aerospace, an RTX business, announced a substantial $200 million investment aimed at expanding its carbon brake production facility located in Spokane, Washington. This multi-year initiative sought to increase the site's manufacturing capacity by over 50%, with plans to add 70,000 square feet of space, including new buildings and additional furnaces. The expansion was designed to meet the growing demand for carbon brakes from both commercial and military sectors. The Spokane site specializes in braking systems utilizing DURACARB® carbon disk technology, recognized for its extended brake life and cost efficiencies.

Key Market Players

• Safran
• UTC
• Parker Hannifin
• Meggitt
• Woodward
• Crane
• Liebherr
• Heroux-Devtek
• CIRCOR
• Eaton

Report Scope:

In this report, the Global Aerospace And Defense Braking Control System Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Aerospace And Defense Braking Control System Market, By Aircraft Type:

o   Commercial Aircrafts

o   Regional Jets

o   Business Jets

o   Military Aircrafts

• Aerospace And Defense Braking Control System Market, By Product Type:

o   Anti-Skid Brake Control Systems

o   Auto Braking Brake Control Systems

o   Brake-By-Wire Brake Control Systems

o   Others

• Aerospace And Defense Braking Control System Market, By Sales Channel:

o   OEM

o   Aftermarket

• Aerospace And Defense Braking Control System Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  France

§  United Kingdom

§  Italy

§  Germany

§  Spain

o   Asia Pacific

§  China

§  India

§  Japan

§  Australia

§  South Korea

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Middle East & Africa

§  South Africa

§  Saudi Arabia

§  UAE

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in the Global Aerospace And Defense Braking Control System Market.

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Company Information

• Detailed analysis and profiling of additional market players (up to five).

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