Global Aircraft Landing Gear Market Growth, Share, Size, Trends and Forecast (2025 - 2031)

• In December 2023, Safran Landing Systems announced the successful installation of its new landing gear on the Boeing 777X. The new gear design enhances durability and reduces maintenance costs, providing significant operational benefits for long-haul airlines.

• In April 2023, Liebherr Aerospace signed a contract with Embraer to develop new-generation landing gear systems for its E2 series. The partnership focuses on reducing the landing gear's weight and enhancing its energy efficiency, which directly impacts fuel economy and operational costs.

Main LG applications are typically larger and more robust, with increased requirements for durability and shock absorption. The nose/tail LG is located at the front or rear of the vehicle and plays a role in stability and steering. This segmentation reflects the varying needs of the intake manifold to support different types of landing gear positions, particularly as vehicles become more advanced in design and function.

By arrangement, the market is categorized into Tail Wheel, Tandem, and Tri-cycle configurations. Tail wheel arrangements are commonly found in older or light aircraft, where the rear tail wheel provides support while the aircraft taxis and takes off. Tandem and Tri-cycle arrangements, on the other hand, are widely used in modern aircraft, offering better stability, especially during landings and takeoffs. The design of the air intake manifold must be tailored to accommodate these specific landing gear configurations, ensuring that air is efficiently routed to the engine in a way that supports the vehicle's flight mechanics and performance.

The platform segmentation, dividing the market into Fixed Wing - OEM and MRO and Rotary Wing - OEM and MRO, highlights the differences in the supply chain and end-user requirements for aircraft components. For fixed-wing vehicles, both OEM (original equipment manufacturer) and MRO (maintenance, repair, and overhaul) services are crucial for ensuring that intake manifolds meet the stringent performance standards required for commercial, military, and private aircraft. Rotary wing vehicles, including helicopters and specialized rotorcraft, have unique needs in terms of intake manifold design, often requiring specialized solutions to maintain performance under more dynamic and varying operational conditions.

Global Aircraft Landing Gear Segment Analysis

In this report, the Global Aircraft Landing Gear Market has been segmented by Position, Arrangement, Platform and Geography.

Global Aircraft Landing Gear Market, Segmentation by Position

The Global Aircraft Landing Gear Market has been segmented by Position into Main LG and Nose/Tail LG.

The Global Aircraft Landing Gear Market is a dynamic sector that plays a crucial role in the aviation industry's growth and development. One of the key segmentation approaches in this market is based on the position of the landing gear, dividing it into two main categories: Main Landing Gear (LG) and Nose/Tail LG. Each segment serves distinct functions in supporting the safe landing and takeoff of aircraft.

The Main Landing Gear forms the primary support system for an aircraft upon touchdown and during ground operations. Positioned beneath the wings or fuselage, depending on the aircraft's design, these gear assemblies bear the majority of the aircraft's weight during landing, providing stability and control. Main landing gear systems are engineered to withstand considerable forces and are pivotal in ensuring safe ground operations across various types of aircraft, from commercial airliners to military jets.

In contrast, Nose/Tail Landing Gear, as the name suggests, are located at the front (nose) or rear (tail) of the aircraft. These gear assemblies are responsible for stabilizing the aircraft along its longitudinal axis during landing and taxiing. While not bearing as much weight as the main landing gear, they are essential for steering and directional control, especially during ground maneuvers. Nose landing gear are commonly found in aircraft with tricycle landing gear configurations, such as commercial airliners, while tail landing gear are typical in tailwheel-equipped aircraft like some general aviation and military planes.

Global Aircraft Landing Gear Market, Segmentation by Arrangement

The Global Aircraft Landing Gear Market has been segmented by Arrangement into Tail Wheel, Tandem and Tri-cycle.

The Global Aircraft Landing Gear Market, a crucial sector within the aviation industry, has witnessed significant segmentation based on arrangement, with tail wheel, tandem, and tri-cycle configurations emerging as prominent categories. Each arrangement offers distinct advantages and is tailored to suit specific aircraft designs and operational requirements.

The tail wheel arrangement, historically one of the earliest configurations, positions a single wheel at the tail end of the aircraft. While this setup is often associated with vintage or smaller aircraft models, it remains relevant in certain niche applications. Tail wheel arrangements excel in rugged terrain or unimproved airstrips, providing enhanced maneuverability and stability during takeoff and landing. However, they may pose challenges during ground handling, especially in crosswind conditions, requiring skilled pilots to navigate effectively.

In contrast, the tandem arrangement features a pair of main landing gear assemblies located closer to the aircraft's centerline, typically beneath the wings. This configuration offers improved stability and ground handling compared to tail wheel setups, making it a preferred choice for many modern aircraft, including commercial airliners and military jets. By distributing weight more evenly and reducing the risk of tipping, tandem arrangements contribute to smoother landings and enhanced operational safety across various operating conditions.

Global Aircraft Landing Gear Market, Segmentation by Platform

The Global Aircraft Landing Gear Market has been segmented by Platform into Fixed Wing and Rotary Wing.

The Global Aircraft Landing Gear Market has witnessed significant segmentation based on the platform, distinguishing between fixed-wing and rotary-wing aircraft. This segmentation is crucial as the landing gear systems for these two types of aircraft differ significantly in design, functionality, and operational requirements. Fixed-wing aircraft, including commercial airliners, cargo planes, and private jets, constitute a substantial portion of the market. These aircraft typically employ retractable landing gear systems that fold into the fuselage during flight to reduce drag and enhance aerodynamic efficiency. The landing gear for fixed-wing aircraft must withstand high impact forces upon landing and takeoff, requiring robust engineering and materials to ensure safety and reliability.

In contrast, rotary-wing aircraft, which comprise helicopters and other vertical takeoff and landing (VTOL) vehicles, feature landing gear systems tailored to their unique operational characteristics. Unlike fixed-wing aircraft, helicopters often have skid-type landing gear or retractable wheels to support landing on various terrains, including rough or uneven surfaces. The landing gear design for rotary-wing aircraft prioritizes stability, vibration dampening, and weight distribution to facilitate smooth landings and takeoffs in diverse environments. Moreover, given the agility and versatility of helicopters, their landing gear systems must accommodate rapid changes in flight dynamics and maneuverability.

The segmentation of the aircraft landing gear market into fixed-wing and rotary-wing platforms reflects the distinct requirements and challenges associated with each type of aircraft. Manufacturers and suppliers in the aerospace industry must tailor their products and solutions to meet the specific demands of these segments, optimizing performance, durability, and safety. As technology continues to advance, innovations in materials, design, and automation will further shape the evolution of aircraft landing gear systems, enhancing efficiency, reliability, and overall aircraft performance across both fixed-wing and rotary-wing platforms. Additionally, with the growing demand for air travel and the expansion of commercial and military aviation fleets worldwide, the aircraft landing gear market is poised for sustained growth and innovation in the coming years.

Global Aircraft Landing Gear Market, Segmentation by Geography

In this report, the Global Aircraft Landing Gear Market has been segmented by Geography into five regions; North America, Europe, Asia Pacific, Middle East and Africa and Latin America.

Global Aircraft Landing Gear Market Share (%), by Geographical Region, 2024

In 2023, the global aircraft landing gear market exhibited a diverse geographical distribution, with various regions contributing to its growth and shaping market dynamics. North America retained a dominant position in the market share, driven by the presence of major aerospace companies, such as Boeing and Airbus, and robust investments in aircraft modernization and fleet expansion initiatives. The region's advanced technological capabilities and stringent safety regulations further bolstered its market share, making it a key player in the global landscape.

Europe also held a significant share in the aircraft landing gear market, attributed to the strong presence of leading aircraft manufacturers and suppliers in countries like France, Germany, and the United Kingdom. The region's focus on sustainable aviation solutions and the growing demand for fuel-efficient aircraft contributed to its market prominence. Additionally, partnerships between aerospace companies and research institutions facilitated innovations in landing gear technologies, further enhancing Europe's competitive position in the global market.

Asia Pacific emerged as a rapidly growing market for aircraft landing gear, fueled by increasing air travel demand, rising disposable incomes, and expanding airline fleets across countries like China, India, and Japan. The region's burgeoning aviation sector, coupled with government initiatives to bolster aerospace manufacturing capabilities, propelled Asia Pacific's market share upwards. Moreover, collaborations between international aerospace firms and local players facilitated technology transfer and skill development, fostering market growth and competitiveness in the region.

This report provides an in depth analysis of various factors that impact the dynamics of Global Aircraft Landing Gear Market. These factors include; Market Drivers, Restraints and Opportunities Analysis.

Drivers, Restraints and Opportunity Analysis

Drivers

• Increasing demand
• Technological advancements leading to the development of lightweight

• Rising focus : The global aircraft landing gear market is experiencing a surge in focus due to several key factors driving demand and innovation. Firstly, the increasing number of air travelers and cargo transportation has led to higher demands for efficient and reliable landing gear systems. Airlines and aircraft manufacturers are seeking landing gear solutions that can withstand the rigors of frequent flights while maintaining safety standards. This has spurred investments in research and development to design landing gear that is lightweight, durable, and cost-effective.
  Advancements in technology are reshaping the aircraft landing gear market. Innovations such as electrically actuated landing gear, composite materials, and advanced sensors are enhancing the performance and efficiency of landing gear systems. Electric landing gear, for instance, offers benefits such as reduced maintenance costs, improved reliability, and lower environmental impact compared to traditional hydraulic systems. These technological advancements are attracting attention from both established players and new entrants in the market, fostering competition and driving further innovation.
  The growing focus on sustainability and fuel efficiency in the aviation industry is influencing the aircraft landing gear market. Airlines are under increasing pressure to reduce their carbon footprint and operating costs. As a result, there is a growing demand for landing gear systems that contribute to fuel savings through lightweight construction and aerodynamic design. Manufacturers are responding by developing landing gear solutions that optimize performance while minimizing environmental impact, thus aligning with the industry's sustainability goals.

Restraints

• High initial investment
• Regulatory challenges

• Supply chain disruptions : The global aircraft landing gear market, a crucial segment within the aviation industry, has faced significant challenges due to supply chain disruptions. These disruptions have stemmed from various factors, including the COVID-19 pandemic, geopolitical tensions, and natural disasters. The pandemic, in particular, led to widespread disruptions in manufacturing operations, logistics, and raw material supplies, affecting the entire aviation supply chain.
  Lockdowns, travel restrictions, and workforce shortages hindered production and distribution, leading to delays in the delivery of landing gear components and assemblies. Geopolitical tensions and trade disputes between major aviation markets further exacerbated supply chain challenges. Tariffs, export restrictions, and sanctions imposed on critical materials and components hindered the smooth flow of goods across borders, impacting the timely availability of landing gear parts. Uncertainties surrounding trade agreements and geopolitical dynamics added layers of complexity to procurement strategies, forcing manufacturers to reassess their sourcing and production networks.
  Natural disasters, such as earthquakes, hurricanes, and floods, have also disrupted the aircraft landing gear supply chain. These events can damage production facilities, disrupt transportation networks, and interrupt the supply of raw materials, causing significant delays and cost escalations. Manufacturers have had to implement robust risk management strategies, including diversification of suppliers, inventory optimization, and disaster recovery plans, to mitigate the impact of such disruptions.

Opportunities

• Emerging markets in Asia-Pacific
• Growing demand

• Increasing adoption of electric : The global aircraft landing gear market is experiencing a notable shift with the increasing adoption of electric systems. Traditional landing gear mechanisms have relied on hydraulic systems for their operation. However, the aviation industry's ongoing quest for efficiency, reliability, and sustainability has led to the exploration of electric alternatives. Electric landing gear systems offer several advantages over their hydraulic counterparts. They are lighter, more compact, and potentially more energy-efficient, aligning well with the industry's drive towards lighter aircraft designs to reduce fuel consumption and emissions.
  One of the key drivers behind the adoption of electric landing gear is the demand for greener aviation solutions. With growing environmental concerns and regulatory pressures to reduce carbon emissions, airlines and aircraft manufacturers are seeking innovative ways to enhance the eco-friendliness of their fleets. Electric landing gear systems contribute to this goal by minimizing the reliance on hydraulic fluids, which can be environmentally harmful if leaked. By transitioning to electric systems, the aviation industry can mitigate its environmental footprint while improving operational efficiency. Electric landing gear systems offer enhanced reliability and maintenance benefits.
  Hydraulic systems are susceptible to leaks, corrosion, and fluid contamination, which can lead to performance issues and increased maintenance requirements. In contrast, electric systems have fewer moving parts and are generally more resistant to wear and tear, resulting in reduced downtime and maintenance costs for airlines. This reliability aspect is particularly crucial in commercial aviation, where operational efficiency and aircraft availability are paramount for profitability.

Key players in Global Aircraft Landing Gear Market include :

• Safran Landing Systems
• UTC Aerospace Systems (now Collins Aerospace, a Raytheon Technologies company)
• Liebherr Group
• Triumph Group
• Honeywell Aerospace
• Heroux-Devtek Inc.
• GKN Aerospace
• Magellan Aerospace
• SPP Canada Aircraft, Inc.
• CIRCOR Aerospace

In this report, the profile of each market player provides following information:

• Company Overview and Product Portfolio
• Key Developments
• Financial Overview
• Strategies
• Company SWOT Analysis