起落架测试市场：全球2025-2035年

2025 年全球起落架测试市场规模估计为 10.2 亿美元，预计到 2035 年将增长到 23.4 亿美元，2025-2035 年预测期内的复合年增长率 (CAGR) 为 8.66%。

起落架测试市场简介：

起落架测试对于确保世界各地空中和海军航空军用飞机的结构完整性、可靠性和作战准备起着至关重要的作用。作为飞机中机械最复杂、压力最大的部件之一，起落架必须在飞机的整个使用寿命中承受反覆的高衝击力、不断变化的环境条件和极端的工作週期。这在国防航空中变得更加重要，因为起落架要承受频繁的使用模式，包括舰载作业、短距离和颠簸起飞、快速部署场景以及在未准备好的地形上的紧急降落。与民用飞机不同，战斗机、货机、直升机和无人机系统等军用平台必须在不可预测且通常恶劣的条件下运行，需要严格的测试标准。国防起落架测试涵盖一系列评估，从静态和动态负载测试到疲劳和跌落测试，不仅验证设计的耐用性，还验证其在关键任务环境中执行的能力。此外，测试过程还验证液压和煞车系统的性能，评估即时负载下的执行器行为，并模拟部署/缩回循环以复製战斗准备状态。更灵活、更轻、更隐身的飞机的发展推动了军事航空专案对先进起落架系统和相应先进测试方法的需求增加。

科技对起落架测试市场的影响：

技术的进步大大改变了国防部门起落架测试的面貌，提高了测试的精确度和范围。机电试验台和多轴执行器的整合可以即时模拟复杂的着陆场景，包括不对称负载分布和粗糙地面撞击。这些测试台通常支援全尺寸起落架系统，使工程师能够分析数千次模拟飞行循环中的真实应力、应变和磨损。现在，在设计验证阶段，通常会使用有限元素分析 (FEA) 和多体动力学模拟来预测故障点，并在物理原型开始之前优化重量强度比。这些模拟通常与数位孪生模型结合，实现虚拟行为与实体测试资料的同步。光纤应变计、无线称重感测器和红外线热成像等感测器技术的创新，为材料疲劳、煞车系统内的热量积聚和负载下的变形提供了高度细緻的洞察。此外，煞车系统测试的进步，特别是电液和碳煞车模组的进步，现在可以在各种环境和负载条件下准确分析减速性能。人工智慧分析越来越多地被用于评估测试数据、识别异常和预测组件生命週期阈值。此外，扩增实境 (AR) 等技术正在维护模拟场景中使用，以可视化组件磨损并进行程式演练，这对于在恶劣或快速反应环境中工作的军事工程师特别有用。

起落架测试市场的关键推动因素：

多种战略推动因素和营运需求正在推动国防航空航太专案更加重视起落架测试。最大的推动因素之一是对任务适应性和稳健性的需求日益增加。现代军用飞机必须能够在各种地面上运行，包括未铺砌的跑道、航空母舰和临时着陆跑道，因此起落架系统即使在恶劣条件下也必须坚固、灵活和可靠。随着国防部队转向多用途和远征平台，装备系统必须适应更大的重量波动和不稳定的部署週期，需要大量的疲劳和负载测试。另一个关键推动因素是隐身和低可观测性设计的趋势，这种设计通常需要可伸缩、节省空间的起落架，并优化雷达横截面。在这种情况下，测试涉及评估受限配置中的部署机制，而不会影响结构性能。生命週期成本和可维护性也是主要考虑因素。国防采购机构越来越注重最大限度地减少长期维护需求并最大限度地延长正常运行时间，这需要预测性维护协议，并透过对齿轮进行磨损、腐蚀和液压油完整性的全面测试来支援。包括联合飞机开发计画在内的国际防务合作也推动了对标准化、可重复的测试流程的需求，以满足不同的合规要求。此外，对衝突环境中的安全性和生存能力的重视突破了操作测试的极限，包括模拟迫降、轮胎爆裂场景和压力下的执行器故障的测试。

起落架测试市场的区域趋势：

在世界各地，起落架测试的性质和重点反映了当地的国防优先事项、工业能力和平台专业化。在北美，尤其是美国，领先的国防原始设备製造商和庞大的测试设施为世界上一些最全面的起落架测试项目提供了支援。这些项目专注于远程轰炸机、海军飞机和第五代战斗机的重型齿轮系统，广泛使用先进的降落塔、高速煞车装置和拦阻钩模拟环境。加拿大透过为军用旋翼机和战术运输机提供维护、修理和大修（MRO）和测试服务做出了重大贡献，这通常是作为北约支援行动的一部分。在欧洲，德国、法国和英国等国家正在测试传统飞机和下一代飞机，包括透过 FCAS（未来作战航空系统）等联合计画。欧洲测试设施优先进行极寒环境测试、耐盐水腐蚀测试以及无人机和垂直起降平台的模组化起落架配置。在亚太地区，中国正在投资一个战斗机起落架高通量自动化测试平台，重点是耐用性和与本土煞车系统的整合。印度正在提高其本土齿轮部件的减震、疲劳测试和验证能力，以支援诸如 Tejas 和运输机概念等飞机。日本和韩国目前正在测试舰载飞机和隐形无人机，重点是紧凑但高负载的起落架解决方案。在中东，沙乌地阿拉伯和阿联酋等国家正在建立国内航空航天测试能力，以支援西方飞机的许可生产和维护。这些工作通常包括模组化起落架测试单元，重点是煞车测试和液压系统诊断。在南美洲和非洲部分地区，起落架测试仍然严重依赖国际合作，但正在努力开发自己的测试生态系统，特别是针对小型运输和侦察无人机。随着区域防御规划的发展，对本地可用、适应性强且资料整合的测试设置的需求将持续成长。

主要起落架测试计画

The Boeing Company已获得美国空军下一代空中优势 (NGAD) 战斗机计划的工程和製造开发 (EMD) 合约。总统唐纳德·川普、国防部长皮特·赫格塞斯和空军将军戴维·阿尔文在椭圆形办公室发表声明证实，新飞机将被命名为 F-47，并将成为美国第一架第六代战斗机。这一里程碑标誌着波音自 1997 年与McDonnell Douglas合併以来首次部署 "全新" 战斗机设计。与基于传统McDonnell Douglas平台的 F-15EX 等飞机不同，全新设计完全从零开始，专门为满足客户的任务要求和愿景而量身定制。

本报告涵盖全球起落架测试市场，并提供按细分市场、技术趋势、机会分析、公司概况和国家数据划分的 10 年市场预测。

目录

全球防御起落架测试 - 目录

全球国防部门起落架测试－报告定义

全球国防起落架测试 – 细分

按地区

按类型

依用途

按最终使用者

未来10年国防部门全球起落架测试分析

对全球国防部门起落架测试长达十年的分析提供了全球国防部门起落架测试的成长详细概述，本章提供并解释了变化趋势、技术采用概述和整体市场吸引力。

全球起落架测试市场在国防部门的技术

本部分涵盖预计将影响该市场的十大技术以及这些技术可能对整个市场产生的影响。

国防部门全球起落架测试预测

上述部分详细介绍了未来 10 年全球国防起落架测试市场的预测。

国防起落架测试区域与全球趋势及预测

本部分涵盖无人机市场的区域趋势、推动因素、阻碍因素、课题以及政治、经济、社会和技术方面。它还提供了详细的区域市场预测和情境分析。区域分析包括主要公司概况、供应商格局和公司基准测试。目前市场规模是根据正常业务情境估算的。

北美

促进因素、阻碍因素与课题

害虫

市场预测与情境分析

主要公司

供应商层级结构

企业基准

欧洲

中东

亚太地区

南美洲

世界国防工业送料齿轮试验的国家分析

本章重点介绍该市场的主要防御计划，并介绍该市场的最新新闻和专利。它还提供国家级的 10 年市场预测和情境分析。

美国

国防计画

最新消息

专利

目前该市场的技术成熟度

市场预测与情境分析

加拿大

义大利

法国

德国

荷兰

比利时

西班牙

瑞典

希腊

澳洲

南非

印度

中国

俄罗斯

韩国

日本

马来西亚

新加坡

巴西

国防部门的全球起落架测试机会矩阵

专家对全球国防领域起落架测试的看法

结论

关于航空和国防市场报告

The Global Landing gear testing market is estimated at USD 1.02 billion in 2025, projected to grow to USD 2.34 billion by 2035 at a Compound Annual Growth Rate (CAGR) of 8.66% over the forecast period 2025-2035.

Introduction to Landing gear testing Market:

Landing gear testing plays a foundational role in ensuring the structural integrity, reliability, and operational readiness of military aircraft across air forces and naval aviation units worldwide. As one of the most mechanically complex and stress-prone components of an aircraft, the landing gear must withstand repeated high-impact forces, variable environmental conditions, and extreme load cycles over the life of the airframe. In defense aviation, this becomes even more critical as landing gear is subject to intense usage patterns, including carrier-based operations, short and rough-field takeoffs, rapid deployment scenarios, and emergency landings on unprepared terrain. Unlike civilian aircraft, military platforms such as fighter jets, cargo planes, helicopters, and unmanned aerial systems must perform under unpredictable and often harsh conditions, requiring rigorous testing standards. Defense landing gear testing encompasses a range of evaluations, from static and dynamic load tests to fatigue and drop tests, to validate not only the design's endurance but also its capability to function in mission-critical environments. Additionally, the testing process verifies hydraulic and brake system performance, assesses actuator behavior under real-time loads, and simulates deployment/retraction cycles to replicate combat readiness. The development of more agile, lightweight, and stealth-capable aircraft has further increased the demand for sophisticated landing gear systems and correspondingly advanced test methodologies in military aviation programs.

Technology Impact in Landing gear testing Market:

Technological advancement has profoundly reshaped landing gear testing in the defense sector, enhancing both precision and scope. The integration of electromechanical testing rigs with multi-axis actuators allows real-time simulation of complex landing scenarios, including asymmetric load distribution and uneven terrain impact. These test benches often support full-scale landing gear systems, enabling engineers to analyze realistic stress, strain, and wear over thousands of simulated flight cycles. Finite element analysis (FEA) and multibody dynamics simulation are now regularly used in the design-validation phase to predict failure points and optimize weight-to-strength ratios before physical prototyping begins. These simulations are often coupled with digital twin models, allowing synchronization between virtual behavior and physical test data. Innovations in sensor technology, including fiber-optic strain gauges, wireless load cells, and infrared thermal imaging, provide highly granular insights into material fatigue, heat buildup in braking systems, and deformation under load. Moreover, advances in braking system testing, especially for electro-hydraulic and carbon brake modules, allow for precise analysis of deceleration performance under varied environmental and load conditions. AI-driven analytics are increasingly used to evaluate test data, identify anomalies, and predict component lifecycle thresholds. Additionally, technologies like augmented reality (AR) are being used in maintenance simulation scenarios to visualize component wear and conduct procedural rehearsals, particularly useful for military technicians tasked with operating in austere or rapid-response environments.

Key Drivers in Landing gear testing Market:

Several strategic factors and operational needs are driving the heightened focus on landing gear testing within defense aerospace programs. One of the foremost drivers is the increased need for mission adaptability and ruggedization. Modern military aircraft must be capable of operating from a variety of surfaces-including unpaved runways, aircraft carriers, and makeshift landing strips-making it essential that landing gear systems are robust, agile, and reliable under adverse conditions. As defense forces move toward multi-role and expeditionary platforms, the gear systems must accommodate greater weight variability and irregular deployment cycles, demanding extensive fatigue and load testing. Another critical driver is the trend toward stealth and low observable designs, which often necessitate retractable, space-efficient landing gear with optimized radar cross-sections. Testing in these cases involves evaluating deployment mechanisms in confined geometries without compromising structural performance. Lifecycle cost and maintainability are also major considerations. Defense procurement agencies are increasingly focused on minimizing long-term maintenance demands and maximizing uptime, which requires predictive maintenance protocols supported by thorough gear testing for wear, corrosion, and hydraulic fluid integrity. International defense collaborations-involving joint aircraft development programs-also fuel demand for standardized and repeatable test processes to meet diverse compliance requirements. Additionally, the emphasis on safety and survivability in contested environments pushes the limits of operational testing, including trials that simulate crash landings, wheel burst scenarios, and actuator failure under duress.

Regional Trends in Landing gear testing Market:

Across global regions, the nature and focus of landing gear testing reflect localized defense priorities, industrial capabilities, and platform specialization. In North America, particularly in the United States, the presence of tier-one defense OEMs and expansive test facilities supports some of the most comprehensive landing gear testing programs in the world. These programs focus on heavy-duty gear systems for long-range bombers, naval aircraft, and fifth-generation fighters, with advanced drop towers, high-speed braking rigs, and arrestor hook simulation environments in widespread use. Canada contributes significantly through MRO and test services for military rotorcraft and tactical transports, often as part of NATO support operations. In Europe, countries like Germany, France, and the UK conduct testing for both legacy and next-generation aircraft, including joint programs such as the Future Combat Air System (FCAS). European test facilities prioritize environmental testing for extreme cold, saltwater corrosion resistance, and modular landing gear configurations for UAVs and VTOL platforms. In the Asia-Pacific region, China is investing in high-throughput, automated testing platforms for fighter jet landing gear, with a focus on durability and integration with indigenous braking systems. India is ramping up its capacity for shock absorption, fatigue testing, and indigenous gear component validation to support aircraft like the Tejas and transport aircraft initiatives. Japan and South Korea are advancing testing for carrier-capable aircraft and stealth UAVs, with emphasis on compact yet high-load landing gear solutions. In the Middle East, nations such as Saudi Arabia and the UAE are building domestic aerospace test capabilities to support licensed production and maintenance of Western aircraft. These initiatives often include modular landing gear testing cells focused on brake testing and hydraulic system diagnostics. In South America and parts of Africa, landing gear testing remains largely dependent on international partnerships, though efforts are underway to develop indigenous testing ecosystems, especially for light transport aircraft and surveillance drones. As regional defense programs evolve, the need for locally available, adaptable, and data-integrated testing setups will continue to grow.

Key Landing gear testing Program:

Boeing has been awarded the Engineering and Manufacturing Development (EMD) contract for the U.S. Air Force's Next-Generation Air Dominance (NGAD) fighter jet program. In an announcement made from the Oval Office, President Donald Trump, Defense Secretary Pete Hegseth, and Air Force Chief General David Allvin confirmed that the new aircraft will be designated the F-47-marking the United States' first sixth-generation fighter. This milestone marks Boeing's first "clean-sheet" fighter design to be selected since its 1997 merger with McDonnell Douglas. Unlike aircraft such as the F-15EX, which are based on legacy McDonnell Douglas platforms, a clean-sheet design begins entirely from scratch, tailored specifically to meet the mission requirements and vision of the customer.

Table of Contents

Global Landing gear testing in defense- Table of Contents

Global Landing gear testing in defense Report Definition

Global Landing gear testing in defense Segmentation

By Region

By Type

By Application

By End user

Global Landing gear testing in defense Analysis for next 10 Years

The 10-year Global Landing gear testing in defense analysis would give a detailed overview of Global Landing gear testing in defense growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.

Market Technologies of Global Landing gear testing in defense

This segment covers the top 10 technologies that is expected to impact this market and the possible implications these technologies would have on the overall market.

Global Landing gear testing in defense Forecast

The 10-year Global Landing gear testing in defense forecast of this market is covered in detailed across the segments which are mentioned above.

Regional Global Landing gear testing in defense Trends & Forecast

The regional counter drone market trends, drivers, restraints and Challenges of this market, the Political, Economic, Social and Technology aspects are covered in this segment. The market forecast and scenario analysis across regions are also covered in detailed in this segment. The last part of the regional analysis includes profiling of the key companies, supplier landscape and company benchmarking. The current market size is estimated based on the normal scenario.

North America

Drivers, Restraints and Challenges

PEST

Market Forecast & Scenario Analysis

Key Companies

Supplier Tier Landscape

Company Benchmarking

Europe

Middle East

APAC

South America

Country Analysis of Global Landing gear testing in defense

This chapter deals with the key defense programs in this market, it also covers the latest news and patents which have been filed in this market. Country level 10 year market forecast and scenario analysis are also covered in this chapter.

US

Defense Programs

Latest News

Patents

Current levels of technology maturation in this market

Market Forecast & Scenario Analysis

Canada

Italy

France

Germany

Netherlands

Belgium

Spain

Sweden

Greece

Australia

South Africa

India

China

Russia

South Korea

Japan

Malaysia

Singapore

Brazil

Opportunity Matrix for Global Landing gear testing in defense

The opportunity matrix helps the readers understand the high opportunity segments in this market.

Expert Opinions on Global Landing gear testing in defense

Hear from our experts their opinion of the possible analysis for this market.

Conclusions

About Aviation and Defense Market Reports

List of Tables

• Table 1: 10 Year Market Outlook, 2025-2035
• Table 2: Drivers, Impact Analysis, North America
• Table 3: Restraints, Impact Analysis, North America
• Table 4: Challenges, Impact Analysis, North America
• Table 5: Drivers, Impact Analysis, Europe
• Table 6: Restraints, Impact Analysis, Europe
• Table 7: Challenges, Impact Analysis, Europe
• Table 8: Drivers, Impact Analysis, Middle East
• Table 9: Restraints, Impact Analysis, Middle East
• Table 10: Challenges, Impact Analysis, Middle East
• Table 11: Drivers, Impact Analysis, APAC
• Table 12: Restraints, Impact Analysis, APAC
• Table 13: Challenges, Impact Analysis, APAC
• Table 14: Drivers, Impact Analysis, South America
• Table 15: Restraints, Impact Analysis, South America
• Table 16: Challenges, Impact Analysis, South America
• Table 17: Scenario Analysis, Scenario 1, By Region, 2025-2035
• Table 18: Scenario Analysis, Scenario 1, By End User, 2025-2035
• Table 19: Scenario Analysis, Scenario 1, By Application, 2025-2035
• Table 20: Scenario Analysis, Scenario 1, By Type, 2025-2035
• Table 21: Scenario Analysis, Scenario 2, By Region, 2025-2035
• Table 22: Scenario Analysis, Scenario 2, By End User, 2025-2035
• Table 23: Scenario Analysis, Scenario 2, By Application, 2025-2035
• Table 24: Scenario Analysis, Scenario 2, By Type, 2025-2035

List of Figures

• Figure 1: Global Landing gear testing Market Forecast, 2025-2035
• Figure 2: Global Landing gear testing Market Forecast, By Region, 2025-2035
• Figure 3: Global Landing gear testing Market Forecast, By End User, 2025-2035
• Figure 4: Global Landing gear testing Market Forecast, By Application, 2025-2035
• Figure 5: Global Landing gear testing Market Forecast, By Type, 2025-2035
• Figure 6: North America, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 7: Europe, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 8: Middle East, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 9: APAC, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 10: South America, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 11: United States, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 12: United States, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 13: Canada, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 14: Canada, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 15: Italy, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 16: Italy, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 17: France, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 18: France, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 19: Germany, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 20: Germany, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 21: Netherlands, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 22: Netherlands, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 23: Belgium, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 24: Belgium, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 25: Spain, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 26: Spain, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 27: Sweden, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 28: Sweden, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 29: Brazil, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 30: Brazil, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 31: Australia, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 32: Australia, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 33: India, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 34: India, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 35: China, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 36: China, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 37: Saudi Arabia, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 38: Saudi Arabia, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 39: South Korea, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 40: South Korea, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 41: Japan, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 42: Japan, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 43: Malaysia, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 44: Malaysia, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 45: Singapore, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 46: Singapore, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 47: United Kingdom, Landing gear testing Market, Technology Maturation, 2025-2035
• Figure 48: United Kingdom, Landing gear testing Market, Market Forecast, 2025-2035
• Figure 49: Opportunity Analysis, Landing gear testing Market, By Region (Cumulative Market), 2025-2035
• Figure 50: Opportunity Analysis, Landing gear testing Market, By Region (CAGR), 2025-2035
• Figure 51: Opportunity Analysis, Landing gear testing Market, By End User (Cumulative Market), 2025-2035
• Figure 52: Opportunity Analysis, Landing gear testing Market, By End User (CAGR), 2025-2035
• Figure 53: Opportunity Analysis, Landing gear testing Market, By Application (Cumulative Market), 2025-2035
• Figure 54: Opportunity Analysis, Landing gear testing Market, By Application (CAGR), 2025-2035
• Figure 55: Opportunity Analysis, Landing gear testing Market, By Type (Cumulative Market), 2025-2035
• Figure 56: Opportunity Analysis, Landing gear testing Market, By Type (CAGR), 2025-2035
• Figure 57: Scenario Analysis, Landing gear testing Market, Cumulative Market, 2025-2035
• Figure 58: Scenario Analysis, Landing gear testing Market, Global Market, 2025-2035
• Figure 59: Scenario 1, Landing gear testing Market, Total Market, 2025-2035
• Figure 60: Scenario 1, Landing gear testing Market, By Region, 2025-2035
• Figure 61: Scenario 1, Landing gear testing Market, By End User, 2025-2035
• Figure 62: Scenario 1, Landing gear testing Market, By Application, 2025-2035
• Figure 63: Scenario 1, Landing gear testing Market, By Type, 2025-2035
• Figure 64: Scenario 2, Landing gear testing Market, Total Market, 2025-2035
• Figure 65: Scenario 2, Landing gear testing Market, By Region, 2025-2035
• Figure 66: Scenario 2, Landing gear testing Market, By End User, 2025-2035
• Figure 67: Scenario 2, Landing gear testing Market, By Application, 2025-2035
• Figure 68: Scenario 2, Landing gear testing Market, By Type, 2025-2035
• Figure 69: Company Benchmark, Landing gear testing Market, 2025-2035