Europe & CIS Commercial Aircraft Landing Gear Market – Segmented By Gear Position (Main Landing, Nose Landing), By Component (Landing Gear Steering System, Wheel & Brake System, Actuation System, Others), By Aircraft Type (Narrow-Body, Wide Body, Regional Jet, Others), By Arrangement (Tricycle, Tandem, Tailwheel), By Country, Competition, Forecast & Opportunities, 2020-2030F

Market Overview:

Europe & CIS Commercial Aircraft Landing Gear Market was valued at USD 1.05 Billion in 2024 and is expected to reach USD 1.49 Billion by 2030 with a CAGR of 6.06% during the forecast period. The commercial aircraft landing gear market is advancing as airlines and manufacturers emphasize technological improvements, operational efficiency, and safety enhancements. Growth drivers include the rising focus on lightweight materials that improve fuel efficiency, the adoption of advanced sensor systems for predictive maintenance, and continuous fleet modernization efforts that demand new and replacement landing gear. Trends shaping the market include the integration of smart health monitoring technologies, greater use of composite and additive manufacturing in landing gear components, and the shift toward modular systems that reduce maintenance time and costs.

Market Drivers

Growing Government Investment in the Aviation Sector

Government investment in aviation infrastructure and technology is a significant driver for the commercial aircraft landing gear market. Aviation authorities and defense agencies are allocating substantial budgets toward improving the efficiency, safety, and sustainability of the aerospace sector. These investments include funding for research and development of advanced landing gear technologies, support for manufacturing capabilities, and promotion of innovation in lightweight materials. Governments are also prioritizing environmentally friendly aviation solutions, which extend to the landing gear segment through incentives for using composites and advanced alloys that enhance fuel efficiency. With air transportation being a critical pillar of global connectivity, governments are channeling resources to modernize fleets and ensure adherence to stringent safety regulations. For instance, Heathrow has revived its $63bn third runway expansion plan, including a 2-mile ($26.5bn) runway crossing the M25, a $15.2bn Terminal 5 extension, and $19bn in wider upgrades, aimed at adding 750 flights a day and raising passenger capacity to 150 million annually.

Increasing Air Traffic

The rise in air travel is a strong catalyst for the expansion of the commercial aircraft landing gear market. As global passenger volumes increase, airlines are placing more aircraft into service, directly driving the demand for landing gear systems. Higher air traffic means more frequent take-offs and landings, putting increased stress on landing gear and boosting the need for replacements, inspections, and maintenance services. Growth in low-cost carriers, coupled with the expanding middle-class population worldwide, is leading to higher flight frequencies and larger fleet sizes. This surge in passenger travel compels aircraft manufacturers to scale up production, with landing gear suppliers benefiting from larger procurement orders. For instance, in 2024, air travel in the EU demonstrated solid growth, with almost 1.1 billion passengers carried, marking an 8.7% rise from 2023. International extra-EU transport accounted for 49.3% of all passengers, followed by intra-EU transport at 36.3% and national flights at 14.3%. Passenger traffic recorded consistent year-on-year increases across all months of 2024, with February showing the highest jump at +13.7%.  

Growing Demand for Aircraft

The global aviation industry’s requirement for new aircraft is driving significant opportunities in the commercial aircraft landing gear market. Airlines are rapidly replacing aging fleets with modern aircraft that promise improved fuel efficiency, reduced emissions, and advanced safety features. Each new aircraft requires a landing gear system designed with cutting-edge materials and innovative engineering to support higher performance standards. The rising order backlogs for major aircraft manufacturers are providing a steady pipeline of opportunities for landing gear suppliers, creating long-term growth potential. New aircraft orders are not limited to large carriers, as regional and low-cost airlines are also expanding their fleets to cater to growing demand for affordable and frequent travel. In 2024, Airbus forecasts the delivery of over 42,000 new passenger aircraft by 2043, with significant demand for 15,000 single-aisle aircraft due to the growth in global air traffic.

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Key Market Challenges

High Manufacturing and Certification Costs

High manufacturing and certification costs are a significant challenge for the landing gear industry, limiting the ability of smaller players to compete and raising barriers for innovation. Landing gear is a highly complex system that requires advanced design, precision engineering, and extensive testing to meet rigorous safety and performance standards. The introduction of new materials such as composites and titanium alloys further increases production expenses due to specialized manufacturing processes and supply chain requirements. Certification processes, which demand compliance with stringent aviation regulations, involve years of design validation, fatigue testing, and safety assurance before systems can enter service. These processes not only extend development timelines but also require substantial financial investments from manufacturers and suppliers.

Complexity of Integrating Advanced Materials

The complexity of integrating advanced materials into landing gear systems is a pressing challenge that impacts both design and manufacturing. Traditional materials such as steel and aluminum have long been relied upon due to their proven durability and ease of certification. However, the shift toward composites, titanium, and hybrid alloys presents new difficulties. These advanced materials require specialized machining, forging, and joining processes, often involving costly equipment and skilled labor. Engineers must carefully balance weight reduction goals with structural strength, fatigue resistance, and crashworthiness requirements, making design optimization highly complex. Compatibility between different materials within a single system also introduces challenges such as galvanic corrosion, thermal expansion differences, and long-term durability concerns under extreme operating conditions.  

Key Market Trends

Adoption of Health Monitoring Systems

The adoption of health monitoring systems in landing gear is emerging as a defining trend in the aviation sector, driven by the need for greater safety and operational efficiency. These systems employ a network of embedded sensors and communication platforms to continuously track the condition of landing gear components. Data on parameters such as load cycles, hydraulic pressure, vibration levels, and wear patterns are collected and analyzed in real time, providing operators with actionable insights. The ability to monitor component health reduces the risk of unexpected failures, enhances fleet reliability, and improves passenger safety. Health monitoring systems also support predictive maintenance strategies, enabling airlines to reduce downtime and lower maintenance costs. Manufacturers are increasingly offering these solutions as part of digital service packages, combining hardware with advanced analytics to create new revenue streams.

Increasing Use of Additive Manufacturing in Landing Gear Components

The increasing use of additive manufacturing in landing gear components represents a transformative trend that is reshaping design, production, and supply chain strategies. Additive manufacturing allows for the creation of complex geometries that were previously unachievable using traditional machining methods, enabling engineers to design components that are lighter yet stronger. This method also reduces material waste, shortens prototyping cycles, and allows for on-demand production of spare parts, which significantly benefits maintenance and repair operations. For landing gear systems, additive manufacturing is particularly valuable in producing customized brackets, fittings, and secondary structures that require precision and durability. The technology also enables manufacturers to reduce inventory levels by shifting toward digital part libraries and localized printing capabilities.

Shift Toward Modular Landing Gear Designs

The shift toward modular landing gear designs is an emerging trend that reflects the aviation industry’s focus on reducing maintenance time and enhancing system flexibility. Modular designs involve creating landing gear systems with interchangeable parts and standardized interfaces, allowing for easier replacements and upgrades without requiring full system overhauls. This approach reduces downtime for aircraft, improves maintenance efficiency, and provides operators with more cost-effective repair solutions. For manufacturers, modularity simplifies production and inventory management, as standardized components can be applied across multiple aircraft platforms. The flexibility of modular systems also allows airlines to incorporate technological upgrades more seamlessly, such as integrating advanced actuators or sensors without redesigning the entire system.

Segmental Insights

Aircraft Type Insights

In 2024, the narrow-body aircraft segment dominated the commercial aircraft landing gear market in Europe & CIS, driven by the strong demand for single-aisle aircraft that serve short to medium-haul routes with higher frequency. Airlines continue to favor narrow-body fleets due to their cost efficiency, quicker turnaround times, and ability to serve both major hubs and secondary airports with ease. The segment benefits from rising passenger traffic on regional and continental routes, where operators seek to maximize load factors and optimize operational economics. The landing gear systems for narrow-body aircraft are in high demand as they require durability, lighter weight, and lower maintenance costs while ensuring safety and reliability across high-frequency flight schedules. Fleet modernization programs are further boosting demand as airlines replace aging aircraft with newer models that feature advanced landing gear designs made from composites and alloys, improving fuel efficiency and reducing lifecycle costs.

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Country Insights

In 2024, the United Kingdom emerged as the dominant market for commercial aircraft landing gear in Europe & CIS, supported by its status as a leading hub for aviation activities and a strong base of airline operations. High aircraft traffic volumes and significant investments in fleet modernization created consistent demand for advanced landing gear systems. The focus on upgrading aircraft to improve fuel efficiency and operational reliability drove adoption of lighter, more durable landing gear technologies. The regulatory emphasis on safety standards also reinforced continuous replacement and maintenance demand, making the United Kingdom the largest contributor to market revenues in the region.

The second-largest market in 2024 was Germany, where a robust aviation sector and steady growth in passenger traffic maintained high demand for commercial aircraft. Airlines operating from the country pursued modernization programs that required advanced landing gear with enhanced safety and efficiency features. The emphasis on integrating predictive maintenance systems into fleets created opportunities for suppliers of landing gear technologies, while strong infrastructure supported continuous replacement cycles. For instance, in 2024, Germany ranked as the third-largest aerospace and defense market in Europe with EUR 52 billion (USD 56.3 billion) in revenues, including EUR 39 billion from civil aviation, EUR 10 billion from military aviation, and EUR 3 billion from space systems. Accounting for 17 percent of global aircraft production, the country excels in manufacturing, R&D, system integration, and component supply, investing 7 percent of revenue in innovation. Exports account for 73 percent of value added, totaling USD 37.7 billion.

Recent Developments

• ​In 2025 Otto Aviation chose Mecaer to provide landing gear and flight control actuation for its Phantom 3500 aircraft, with designs focused on compact integration, advanced shock absorption, and aerodynamic efficiency. The jet aims to cut fuel burn by 60% and lower emissions by up to 90% with sustainable aviation fuel, with flight testing planned for 2027 and service entry targeted for 2030.
• China’s C929 widebody jet, set to compete with the A350 and 787, is drawing interest from US and European suppliers for key components, with potential landing gear and engine partnerships under discussion and first deliveries targeted for 2027.
• In 2025 China announced exemptions from its 125% import tariffs on jet engines, landing gear, nacelles, and 131 other aerospace product categories, a move aimed at easing trade tensions and reducing uncertainty for global suppliers.
• In 2023 Emirates signed deals with Safran worth over US$1.2 billion, covering cabin seats, cabin equipment, wheels and carbon brakes, landing gear component repair, retrofit work, and MRO support. These agreements span the airline's new and existing fleets including the A350, 777X-9 and 777-300 and include enhancements in comfort, durability, and operational efficiency.

Key Market Players

• AAR CORP
• Advantage Aviation Technologies
• Eaton Corporation plc
• Héroux-Devtek
• Honeywell International Inc.
• Magellan Aerospace Corporation
• Liebherr-International Deutschland GmbH
• Magnaghi Aeronautica S.P.A.
• Sumitomo Precision Products Co., Ltd.
• Safran S.A

Report Scope:

In this report, Europe & CIS Commercial Aircraft Landing Gear Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• ·         Europe & CIS Commercial Aircraft Landing Gear Market, By Gear Position:

o    Main Landing

o    Nose Landing

•           Europe & CIS Commercial Aircraft Landing Gear Market, By Component:

o    Landing Gear Steering System

o    Wheel & Brake System

o    Actuation System

o    Others

•           Europe & CIS Commercial Aircraft Landing Gear Market, By Aircraft Type:

o    Narrow-Body

o    Wide Body

o    Regional Jet

o    Others

•           Europe & CIS Commercial Aircraft Landing Gear Market, By Arrangement:

o    Tricycle

o    Tandem

o    Tailwheel

•           Europe & CIS Commercial Aircraft Landing Gear Market, By Country:

o    Germany

o    Russia

o    France

o    Spain

o    Italy

o    United Kingdom

o    Poland

o    Rest of Europe & CIS

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in Europe & CIS Commercial Aircraft Landing Gear Market.

Available Customizations:

Europe & CIS Commercial Aircraft Landing Gear Market report with the given market data, Tech Sci Research offers customizations according to the company’s specific needs. The following customization options are available for the report:

Company Information

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

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