防衛用ターボジェットエンジンの世界市場：2025年～2035年

世界の防衛用ターボジェットエンジンの市場規模は、2025年に162億5,000万米ドル、2035年までに325億5,000万米ドルに成長すると予測され、予測期間の2025年～2035年の年間平均成長率（CAGR）は7.19%になるとみられています。

世界の防衛用ターボジェットエンジン市場は、戦闘、偵察、戦略的防衛任務のために設計された高速航空機の動力源として、軍事航空において重要なセグメントであり続けています。ターボジェットエンジンは、超音速で高い推力を発揮することで知られ、戦闘機、爆撃機、無人航空機システム（UAS）の要として長い間使用されてきました。現代の戦闘機は、より高い燃料効率と航続距離を実現するためにターボファンエンジンへの移行が進んでいるが、高速の迎撃機、巡航ミサイル、標的ドローンなど、特定の防衛用途では依然としてターボジェットが重要な役割を果たしています。世界の軍隊が航空隊の近代化を続ける中、先進的なターボジェットエンジンに対する需要は、特に次世代ミサイルシステムや超音速UAVのために安定したままです。市場では、エンジン性能の向上、燃料消費量の削減、耐久性と運用効率を向上させる最先端材料の統合に焦点を当てた研究開発が進められています。地政学的緊張の高まりと航空優勢への投資の増加に伴い、世界各国は空中戦における戦略的優位性を維持するため、先進的なターボジェットエンジンの開発と調達を優先しています。

技術の進歩が防衛用ターボジェットエンジン市場を形成しており、推力重量比の改善、燃料効率、材料科学に重点を置いた技術革新が行われています。最も重要な開発のひとつは、先進複合材料とセラミックマトリックス複合材料（CMC）をエンジン構造に統合することで、耐熱性を高め、全体の重量を軽減しています。これにより、高性能な軍事航空において極めて重要な要素である、より高い運用温度とエンジン寿命の向上が可能になります。さらに、全権デジタルエンジン制御（FADEC）のようなデジタルエンジン制御システムの導入により、エンジンの応答性が向上し、燃料消費が最適化され、予知保全機能が提供され、ダウンタイムと運用コストが削減されました。エアフローと燃焼特性をリアルタイムで調整できる可変サイクルエンジンの開発が進んでいることも、変革をもたらす動向です。このような適応型エンジンは、軍用機の汎用性を高め、亜音速飛行中の効率的な燃料使用を可能にする一方で、必要な場合には高速性能を維持することができます。積層造形（3Dプリンティング）もターボジェット製造に革命をもたらし、ラピッドプロトタイピングや、構造的完全性を向上させた複雑なエンジン部品の製造を可能にしています。このような進歩に加え、ハイブリッド推進システムの調査も盛んになっており、防衛請負業者はターボジェット設計に電気コンポーネントを統合して効率を高め、熱シグネチャーを低減する可能性を探っています。

防衛予算の増加、空中戦能力の強化の必要性、ミサイル技術の普及など、いくつかの重要な要因が防衛用ターボジェットエンジン市場の成長を促進しています。主な促進要因の1つは、各国が敵国を出し抜ける高速航空機を開発・配備しようとしているため、制空権を維持することが世界的に重視されていることです。極超音速兵器計画の台頭は、先進的なターボジェットやラムジェット推進技術への投資をさらに強化し、主要軍事大国は高速ミサイルや無人プラットフォーム用の次世代空気呼吸エンジンを開発しています。巡航ミサイルにおけるターボジェットエンジンの継続的な関連性も、市場成長を後押しする大きな要因です。これらのエンジンは長距離攻撃能力に必要な速度と信頼性を提供し、現代の軍事兵器庫に不可欠な要素となっています。さらに、偵察、戦闘、電子戦の用途で無人航空機システムの配備が増加しているため、迅速な機動性と飛行時間の延長をサポートできる軽量で高推力のターボジェットエンジンの需要が高まっています。第6世代戦闘機計画を含む超音速戦闘機への関心の高まりもターボジェットエンジン開発に影響を及ぼしており、軍は速度、効率、ステルス特性のバランスが取れた推進ソリューションを求めています。

防衛用ターボジェットエンジン市場の地域動向は、軍の優先事項、技術力、戦略目標によって異なります。北米は依然としてターボジェットエンジン開発において圧倒的な強さを誇っており、米国は技術革新と生産の両面でリードしています。次世代航空機、極超音速兵器、先進ミサイルシステムに対する米軍の投資が、高性能ターボジェット推進の継続的な研究を後押ししています。Pratt & Whitney、General Electric Aviation、Honeywellなどの大手防衛関連請負会社は、材料科学、デジタル制御システム、積層造形などの進歩を活用し、最先端のエンジン技術開発の最前線にいます。米国空軍は、極超音速巡航ミサイルや先進的なUAVを含む高速攻撃能力に重点を置いており、ターボジェットエンジン・ソリューションに対する持続的な需要を確実なものにしています。さらに、B-52ストラトフォートレスなどのレガシー機のアップグレードが進行中で、燃料効率と性能の向上を目的としたエンジン近代化プログラムも含まれています。カナダはターボジェットエンジンの主要生産国ではありませんが、研究開発協力において重要な役割を果たし、NATOの戦略的イニシアチブを支えています。

当レポートでは、世界の防衛用ターボジェットエンジン市場について調査し、10年間のセグメント別市場予測、技術動向、機会分析、企業プロファイル、国別データなどをまとめています。

目次

防衛用ターボジェットエンジン市場レポートの定義

防衛用ターボジェットエンジン市場セグメンテーション

• 地域別
• 用途別
• エンドユーザー別

今後10年間の防衛用ターボジェットエンジン市場分析

防衛用ターボジェットエンジン市場の市場技術

世界の防衛用ターボジェットエンジン市場予測

防衛用ターボジェットエンジン市場の動向と予測、地域別

• 北米
  • 促進要因、抑制要因、課題
  • PEST
  • 主要企業
  • サプライヤー階層の情勢
  • 企業ベンチマーク
  • 市場予測とシナリオ分析
• 欧州
• 中東
• アジア太平洋
• 南米

防衛用ターボジェットエンジン市場の国別分析

• 米国
  • プログラムマッピング
  • 最新ニュース
  • 特許
  • この市場における現在の技術成熟度
  • 市場予測とシナリオ分析
• カナダ
• イタリア
• フランス
• ドイツ
• オランダ
• ベルギー
• スペイン
• スウェーデン
• ギリシャ
• オーストラリア
• 南アフリカ
• インド
• 中国
• ロシア
• 韓国
• 日本
• マレーシア
• シンガポール
• ブラジル

防衛用ターボジェットエンジン市場の機会マトリックス

防衛用ターボジェットエンジン市場レポートに関する専門家の意見

結論

航空・防衛市場レポートについて

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 Application, 2025-2035
• Table 19: Scenario Analysis, Scenario 1, By End User, 2025-2035
• Table 20: Scenario Analysis, Scenario 2, By Region, 2025-2035
• Table 21: Scenario Analysis, Scenario 2, By Application, 2025-2035
• Table 22: Scenario Analysis, Scenario 2, By End User, 2025-2035

List of Figures

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

The Global defense turbojet engine market is estimated at USD 16.25 billion in 2025, projected to grow to USD 32.55 billion by 2035 at a Compound Annual Growth Rate (CAGR) of 7.19% over the forecast period 2025-2035.

Introduction to Defense Turbojet Engine Market:

The global defense turbojet engine market remains a vital segment of military aviation, powering high-speed aircraft designed for combat, reconnaissance, and strategic defense missions. Turbojet engines, known for their ability to deliver high thrust at supersonic speeds, have long been a cornerstone of fighter jets, bombers, and unmanned aerial systems (UAS). While modern combat aircraft have largely transitioned to turbofan engines for greater fuel efficiency and range, turbojets still play a significant role in specific defense applications, including high-speed interceptor aircraft, cruise missiles, and target drones. As global military forces continue to modernize their air fleets, the demand for advanced turbojet engines remains steady, particularly for next-generation missile systems and supersonic UAVs. The market is witnessing ongoing research and development efforts focused on enhancing engine performance, reducing fuel consumption, and integrating cutting-edge materials that improve durability and operational efficiency. With rising geopolitical tensions and increased investments in air superiority, countries across the world are prioritizing the development and procurement of advanced turbojet engines to maintain strategic advantages in aerial combat.

Technology Impact in Defense Turbojet Engine Market:

Technological advancements are shaping the defense turbojet engine market, with innovations focused on thrust-to-weight ratio improvements, fuel efficiency, and materials science. One of the most significant developments is the integration of advanced composite materials and ceramic matrix composites (CMCs) into engine construction, which enhances thermal resistance and reduces overall weight. This allows for higher operational temperatures and improved engine longevity, crucial factors in high-performance military aviation. Additionally, the incorporation of digital engine control systems, such as Full Authority Digital Engine Control (FADEC), has improved engine responsiveness, optimized fuel consumption, and provided predictive maintenance capabilities, reducing downtime and operational costs. The ongoing development of variable cycle engines, which can adjust airflow and combustion characteristics in real-time, is another transformative trend. These adaptive engines enable greater versatility in military aircraft, allowing for efficient fuel use during subsonic flight while maintaining high-speed performance when needed. Additive manufacturing, or 3D printing, has also revolutionized turbojet production, allowing for rapid prototyping and the creation of complex engine components with improved structural integrity. In addition to these advancements, research into hybrid propulsion systems is gaining traction, with defense contractors exploring the potential for integrating electrical components into turbojet designs to enhance efficiency and reduce thermal signatures.

Key Drivers in Defense Turbojet Engine Market:

Several key factors are driving the growth of the defense turbojet engine market, including increasing defense budgets, the need for enhanced aerial combat capabilities, and the proliferation of missile technology. One of the primary drivers is the global emphasis on maintaining air superiority, as nations seek to develop and deploy high-speed aircraft capable of outmaneuvering adversaries. The rise of hypersonic weapons programs has further intensified investments in advanced turbojet and ramjet propulsion technologies, with leading military powers developing next-generation air-breathing engines for high-speed missiles and unmanned platforms. The continued relevance of turbojet engines in cruise missiles is another major factor propelling market growth. These engines provide the necessary speed and reliability for long-range strike capabilities, making them an essential component of modern military arsenals. In addition, the increasing deployment of unmanned aerial systems for reconnaissance, combat, and electronic warfare applications is driving demand for lightweight, high-thrust turbojet engines capable of supporting rapid maneuverability and extended flight durations. The resurgence of interest in supersonic combat aircraft, including sixth-generation fighter programs, is also influencing turbojet engine development, as military forces seek propulsion solutions that balance speed, efficiency, and stealth characteristics.

Regional Trends in Defense Turbojet Engine Market:

Regional trends in the defense turbojet engine market vary based on military priorities, technological capabilities, and strategic objectives. North America remains a dominant force in turbojet engine development, with the United States leading in both innovation and production. The U.S. military's investments in next-generation aircraft, hypersonic weapons, and advanced missile systems are driving continued research into high-performance turbojet propulsion. Major defense contractors such as Pratt & Whitney, General Electric Aviation, and Honeywell are at the forefront of developing cutting-edge engine technologies, leveraging advancements in materials science, digital control systems, and additive manufacturing. The U.S. Air Force's focus on high-speed strike capabilities, including hypersonic cruise missiles and advanced UAVs, ensures sustained demand for turbojet engine solutions. Additionally, ongoing upgrades to legacy aircraft, such as the B-52 Stratofortress, include engine modernization programs aimed at improving fuel efficiency and performance. Canada, while not a major producer of turbojet engines, remains an important player in research and development collaborations, supporting NATO's strategic initiatives.

In Europe, the defense turbojet engine market is driven by multinational defense projects and a strong emphasis on indigenous engine development. Countries such as France, the United Kingdom, and Germany are leading the charge in high-performance military propulsion technologies, with companies like Rolls-Royce, Safran Aircraft Engines, and MTU Aero Engines developing advanced turbojet and turbofan solutions. The Future Combat Air System (FCAS) and Tempest programs, spearheaded by European nations, include significant investments in next-generation propulsion technologies, ensuring continued advancements in turbojet engine capabilities. France's Safran has been actively working on high-thrust military engines, supporting both national defense programs and international collaborations. The United Kingdom's Rolls-Royce has played a crucial role in developing advanced propulsion solutions for both manned and unmanned aircraft, including efforts to integrate variable cycle engines into future fighter jets. Additionally, Europe's emphasis on cruise missile development, including the MBDA Storm Shadow and the Meteor air-to-air missile, has driven demand for compact, high-efficiency turbojet engines tailored for missile applications.

The Asia-Pacific region is witnessing rapid growth in the defense turbojet engine market, fueled by increasing military expenditures, indigenous defense manufacturing initiatives, and regional security concerns. China has emerged as a major player, investing heavily in the development of high-performance jet engines to reduce reliance on foreign suppliers. The country's efforts to develop indigenous turbojet engines for fighter jets, UAVs, and missile systems underscore its ambition to achieve self-sufficiency in military propulsion technology. China's advancements in hypersonic weapons, including scramjet and ramjet propulsion research, further highlight its strategic focus on high-speed aerial warfare. India is also making significant strides in turbojet engine development, with the Gas Turbine Research Establishment (GTRE) working on indigenous jet propulsion solutions for combat aircraft and cruise missiles. Japan and South Korea, both key defense players in the region, are investing in next-generation propulsion technologies as part of their respective military modernization efforts. Japan's collaboration with international defense contractors on advanced fighter programs, such as the F-X stealth fighter, includes research into high-performance jet engines tailored for future aerial combat.

Key Defense Turbojet Engine Program:

AZAD Engineering Ltd has secured a contract from the Gas Turbine Research Establishment (GTRE), an R&D organization under the Defence Research and Development Organisation (DRDO) and the Union Defence Ministry, to develop advanced turbo engines for India's defense programs. The company announced that it has been selected as GTRE's exclusive industry partner to bring this design to fruition. The contract encompasses the full-scale manufacturing and assembly of a cutting-edge gas turbine engine essential for defense applications.

GE Aerospace has secured a $1.1 billion multiyear contract from the U.S. Department of Defense for the procurement of T700 turbine engines, which will power Army helicopters and support other military branches. Awarded on June 12, the contract is set to run until June 13, 2029, ensuring a steady supply of T700 engines for the Army's Apache and Black Hawk helicopters. Additionally, the engines will be utilized by the Navy, Air Force, and foreign military sales partners. The initial delivery order under the contract includes 20 engines designated for the production line of the Army's UH-60M Black Hawk, the latest variant of the helicopter.

Table of Contents

Defense Turbojet Engines Market Report Definition

Defense Turbojet Engines Market Segmentation

By Region

By Application

By End User

Defense Turbojet Engines Market Analysis for next 10 Years

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

Market Technologies of Defense Turbojet Engines Market

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 Defense Turbojet Engines Market Forecast

The 10-year defense turbojet engines market forecast of this market is covered in detailed across the segments which are mentioned above.

Regional Defense Turbojet Engines Market Trends & Forecast

The regional defense turbojet engines 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

REST

Key Companies

Supplier Tier Landscape

Company Benchmarking

Market Forecast & Scenario Analysis

Europe

Middle East

APAC

South America

Country Analysis of Defense Turbojet Engines Market

This chapter deals with the key 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

Program Mapping

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 Defense Turbojet Engines Market

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

Expert Opinions on Defense Turbojet Engines Market Report

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

Conclusions

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