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航空エンジン用複合材料の世界市場評価、複合材料別、用途別、航空機タイプ別、地域別、機会および予測、2018年~2032年

Global Aero Engine Composites Market Assessment, By Composite Material, By Application, By Aircraft Type, By Region, Opportunities and Forecast, 2018-2032F

出版日
ページ情報
英文 235 Pages
納期
3~5営業日
カスタマイズ可能
価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=147.66円
航空エンジン用複合材料の世界市場評価、複合材料別、用途別、航空機タイプ別、地域別、機会および予測、2018年~2032年
出版日: 2025年07月07日
発行: Markets & Data
ページ情報: 英文 235 Pages
納期: 3~5営業日
GIIご利用のメリット
  • 全表示
  • 概要
  • 図表
  • 目次
概要

世界の航空エンジン用複合材料市場は、2025年~2032年の予測期間中にCAGR 6.54%を記録し、2024年の36億6,000万米ドルから2032年には60億8,000万米ドルに成長すると予測されています。航空エンジン用複合材料市場は、燃費向上と排出ガス削減を目的とした航空産業における軽量・高性能材料への動向により加速しています。炭素繊維強化ポリマー(CFRP)とセラミックマトリックス複合材料(CMC)は、航空エンジンのファンブレードやケーシング、燃焼室などの構造用途で主流となっており、その強度対重量比と耐熱性がよく認められています。

業界を牽引する要因としては、次世代ナローボディ航空機の需要、炭素排出規制の強化、軍事推進能力の進化などが挙げられます。業界のリーダーたちは、新しい複合材ソリューションの研究開発に多額の投資を行っています。現在、北米が市場の最大シェアを占めているが、アジア太平洋は航空機保有数と航空機生産の増加により高い成長率を示しています。市場予測は、継続的な航空宇宙イノベーションによって支えられています。

例えば、2024年8月、アイルランドのゴールウェイを拠点とするEireComposites Teo.は、中国航空工業集団公司(AVIC)の子会社であるAVIC SAC Commercial Aircraft Co., Ltd.とエアバスA220の内部部品を製造する大型契約を締結しました。この契約はEireComposites社の国際的な足跡を拡大し、航空宇宙用途の軽量・高性能複合材料における同社の専門技術を際立たせるものです。

目次

第1章 プロジェクトの範囲と定義

第2章 調査手法

第3章 米国の関税の影響

第4章 エグゼクティブサマリー

第5章 お客様の声

  • 回答者の人口統計
  • 購入決定時に考慮される要素
  • 高強度複合材料の使用
  • 排出量の削減

第6章 世界の航空エンジン用複合材料市場の展望、2018年~2032年

  • 市場規模分析と予測
    • 金額別
  • 市場シェア分析と予測
    • 複合材料別
      • 炭素炭素複合材料
      • セラミックマトリックス複合材料
      • ポリマーマトリックス複合材料
    • 用途別
      • ファンブレード
      • ケーシングとシュラウド
      • ノズルとライナー
    • 航空機タイプ別
      • 民間航空機
      • 軍用機
      • ビジネスジェット
    • 地域別
      • 北米
      • 欧州
      • アジア太平洋
      • 南米
      • 中東・アフリカ
    • 企業別市場シェア分析(上位5社およびその他- 金額別、2024年)
  • 2024年市場マップ分析
    • 複合材料別
    • 用途別
    • 航空機タイプ別
    • 地域別

第7章 北米の航空エンジン用複合材料市場の展望、2018年~2032年

  • 市場規模分析と予測
    • 金額別
  • 市場シェア分析と予測
    • 複合材料別
      • 炭素炭素複合材料
      • セラミックマトリックス複合材料
      • ポリマーマトリックス複合材料
    • 用途別
      • ファンブレード
      • ケーシングとシュラウド
      • ノズルとライナー
    • 航空機タイプ別
      • 民間航空機
      • 軍用機
      • ビジネスジェット
    • 国別シェア
      • 米国
      • カナダ
      • メキシコ
  • 国別市場評価
    • 米国の航空エンジン用複合材料市場の見通し、2018年~2032年*
      • 市場規模分析と予測
      • 市場シェア分析と予測
    • カナダ
    • メキシコ

すべてのセグメントは、対象となるすべての地域と国に提供されます。

第8章 欧州の航空エンジン用複合材料市場の展望、2018年~2032年

  • ドイツ
  • フランス
  • イタリア
  • 英国
  • ロシア
  • オランダ
  • スペイン
  • トルコ
  • ポーランド

第9章 アジア太平洋の航空エンジン用複合材料市場の展望、2018年~2032年

  • インド
  • 中国
  • 日本
  • オーストラリア
  • ベトナム
  • 韓国
  • インドネシア
  • フィリピン

第10章 南米の航空エンジン用複合材料市場の展望、2018年~2032年

  • ブラジル
  • アルゼンチン

第11章 中東・アフリカの航空エンジン用複合材料市場の展望、2018年~2032年

  • サウジアラビア
  • アラブ首長国連邦
  • 南アフリカ

第12章 ポーターのファイブフォース分析

第13章 PESTLE分析

第14章 市場力学

  • 市場促進要因
  • 市場の課題

第15章 市場動向と発展

第16章 ケーススタディ

第17章 競合情勢

  • 市場リーダー上位5社の競合マトリックス
  • 上位5社のSWOT分析
  • 市場上位10の主要企業の情勢
    • Spirit AeroSystems Holdings, Inc.
      • 会社概要
      • 主要経営陣
      • 提供される主な製品
      • 主要財務状況(報告時点)
      • 主要市場への注力と地理的プレゼンス
      • 最近の動向/コラボレーション/ パートナーシップ/合併と買収
    • General Electric Company
    • Safran SA
    • Rolls-Royce Holdings plc
    • CFM International SA
    • Mitsubishi Heavy Industries Aero Engines, Ltd.
    • Teledyne Technologies Incorporated
    • Liebherr-Aerospace Lindenberg GmbH
    • Toray Advanced Composites USA, Inc.
    • Hexcel Corporation

上記の企業は市場シェアに応じて注文を保留するものではなく、調査作業中に入手可能な情報に応じて変更される可能性があります。

第18章 戦略的提言

第19章 調査会社について・免責事項

図表

List of Tables

  • Table 1. Competition Matrix of Top 5 Market Leaders
  • Table 2. Mergers & Acquisitions/ Joint Ventures (If Applicable)
  • Table 3. About Us - Regions and Countries Where We Have Executed Client Projects

List of Figures

  • Figure 1. Global Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 2. Global Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 3. Global Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 4. Global Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 5. Global Aero Engine Composites Market Share (%), By Region, 2018-2032F
  • Figure 6. North America Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 7. North America Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 8. North America Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 9. North America Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 10. North America Aero Engine Composites Market Share (%), By Country, 2018-2032F
  • Figure 11. United States Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 12. United States Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 13. United States Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 14. United States Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 15. Canada Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 16. Canada Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 17. Canada Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 18. Canada Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 19. Mexico Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 20. Mexico Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 21. Mexico Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 22. Mexico Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 23. Europe Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 24. Europe Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 25. Europe Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 26. Europe Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 27. Europe Aero Engine Composites Market Share (%), By Country, 2018-2032F
  • Figure 28. Germany Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 29. Germany Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 30. Germany Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 31. Germany Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 32. France Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 33. France Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 34. France Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 35. France Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 36. Italy Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 37. Italy Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 38. Italy Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 39. Italy Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 40. United Kingdom Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 41. United Kingdom Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 42. United Kingdom Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 43. United Kingdom Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 44. Russia Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 45. Russia Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 46. Russia Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 47. Russia Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 48. Netherlands Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 49. Netherlands Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 50. Netherlands Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 51. Netherlands Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 52. Spain Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 53. Spain Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 54. Spain Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 55. Spain Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 56. Turkey Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 57. Turkey Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 58. Turkey Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 59. Turkey Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 60. Poland Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 61. Poland Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 62. Poland Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 63. Poland Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 64. South America Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 65. South America Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 66. South America Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 67. South America Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 68. South America Aero Engine Composites Market Share (%), By Country, 2018-2032F
  • Figure 69. Brazil Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 70. Brazil Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 71. Brazil Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 72. Brazil Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 73. Argentina Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 74. Argentina Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 75. Argentina Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 76. Argentina Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 77. Asia-Pacific Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 78. Asia-Pacific Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 79. Asia-Pacific Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 80. Asia-Pacific Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 81. Asia-Pacific Aero Engine Composites Market Share (%), By Country, 2018-2032F
  • Figure 82. India Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 83. India Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 84. India Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 85. India Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 86. China Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 87. China Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 88. China Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 89. China Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 90. Japan Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 91. Japan Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 92. Japan Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 93. Japan Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 94. Australia Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 95. Australia Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 96. Australia Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 97. Australia Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 98. Vietnam Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 99. Vietnam Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 100. Vietnam Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 101. Vietnam Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 102. South Korea Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 103. South Korea Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 104. South Korea Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 105. South Korea Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 106. Indonesia Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 107. Indonesia Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 108. Indonesia Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 109. Indonesia Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 110. Philippines Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 111. Philippines Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 112. Philippines Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 113. Philippines Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 114. Middle East & Africa Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 115. Middle East & Africa Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 116. Middle East & Africa Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 117. Middle East & Africa Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 118. Middle East & Africa Aero Engine Composites Market Share (%), By Country, 2018-2032F
  • Figure 119. Saudi Arabia Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 120. Saudi Arabia Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 121. Saudi Arabia Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 122. Saudi Arabia Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 123. UAE Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 124. UAE Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 125. UAE Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 126. UAE Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 127. South Africa Aero Engine Composites Market, By Value, In USD Billion, 2018-2032F
  • Figure 128. South Africa Aero Engine Composites Market Share (%), By Composite Material, 2018-2032F
  • Figure 129. South Africa Aero Engine Composites Market Share (%), By Application, 2018-2032F
  • Figure 130. South Africa Aero Engine Composites Market Share (%), By Aircraft Type, 2018-2032F
  • Figure 131. By Composite Material Map-Market Size (USD Billion) & Growth Rate (%), 2024
  • Figure 132. By Application Map-Market Size (USD Billion) & Growth Rate (%), 2024
  • Figure 133. By Aircraft Type Map-Market Size (USD Billion) & Growth Rate (%), 2024
  • Figure 134. By Region Map-Market Size (USD Billion) & Growth Rate (%), 2024
目次
Product Code: MX13570

Global aero engine composites market is projected to witness a CAGR of 6.54% during the forecast period 2025-2032, growing from USD 3.66 billion in 2024 to USD 6.08 billion in 2032. The aero engine composites market is accelerating due to the trend toward lightweight, high-performance materials in the aviation industry to improve fuel efficiency and reduce emissions. Carbon fiber-reinforced polymers (CFRP) and ceramic matrix composites (CMCs) have mainstream use in structural applications, such as aero engine fan blades and casings and combustion chambers, which are well recognized for their strength-to-weight ratio and thermal resistance.

A few industry drivers include demand for next-generation narrow-body aircraft, increased restrictions on carbon emissions, and the evolution of military propulsion capabilities. Industry leaders are heavily investing in research and development for new composite solutions. Currently, North America represents the largest share of the market, while Asia-Pacific is increasing at a high growth rate due to the growth of fleets and aircraft production. The market estimates are supported by continued aerospace innovation.

For instance, in August 2024, EireComposites Teo., based in Galway, Ireland, signed a major contract with AVIC SAC Commercial Aircraft Co., Ltd., a subsidiary of the Aviation Industry Corporation of China (AVIC), to manufacture internal components for the Airbus A220. The agreement expands EireComposites' international footprint and highlights its expertise in lightweight, high-performance composite materials for aerospace applications.

Composites Revolution in Aerospace Propulsion Drives Aero Engine Composites Market Demand

The aerospace industry's increasing use of composite materials, particularly advanced composites, in aero engines in response to lighter, efficient, and more reliable propulsion systems. Consequently, high-temperature composite materials are being used in ever more critical parts of the aero engines to improve performance and reduce fuel burning. This demand is increasing as next-generation engine designs enlist composites as part of the design, including fan blades, exhaust and thermal shielding. Although high production costs and a long timeline for certification remain hurdles, many of these hurdles are being cleared with automated manufacturing technologies and sustainably sourced advanced materials. Emerging markets are gaining significant traction as capacity for aircraft production expands, thus allowing new entrants into the supply chain world. Furthermore, the continued shift toward carbon-neutral aviation and advanced aircraft propulsion systems will only further increase demand for composites, making composites ubiquitous in the future state of aerospace innovation.

For instance, in November 2023, GKN Aerospace and GE Aerospace signed a major agreement to deepen their partnership across key engine programs, including the GEnx, CF6, GE90, and GE9X platforms. The deal covers innovative technology insertion, full fan case production, and expanded repair services, with a focus on sustainable material solutions and lifecycle support.

Collaborative Push for Smarter, Sustainable Composites Drives Market Growth

The increased complexity of aero engine composites is forcing collaboration across the aerospace ecosystem on a new scale. Material scientists are partnering with digital engineering companies to deliver next-gen simulation tools to predict composite performance. Manufacturers are collaborating with additive manufacturing specialists to radically transform how they manufacture complex composite components. Academia is actively teaming with regulators to build new certification pathways for these material innovations. These partnerships speed up innovation while also managing risk as they share experience to find technical and commercial solutions to barriers. This level of collaboration is critical for industry change initiatives, which involve new applications such as sustainable composites and integrated propulsion systems, where new value chains, business models and opportunities are emerging within the aviation sector.

For instance, in June 2023, Spirit AeroSystems, Inc. selected by Honda Aircraft Company, LLC to manufacture the composite fuselage for Honda's new light jet, based on the HondaJet 2600 concept. The agreement includes a build-to-print composite fuselage and bonded frame, leveraging Spirit's expertise in advanced materials and cost-efficient manufacturing. This collaboration expands Spirit's regional and business jet portfolio and supports Honda's goal of delivering transcontinental-capable, fuel-efficient aircraft.

Fan Blades Dominates the Global Aero Engine Composites Market Share

The advanced composite fan blade development now available is changing the performance of aero engines with unparalleled weight saving and aerodynamic benefits. The use of these next-generation components drives higher bypass-ratio engine designs for improved fuel economy and quieter environmental impact. Utilizing advanced materials, including 3D-woven carbon fiber and hybrid architectures, manufacturers are increasing the ability to withstand foreign object damage. The transition from traditional metallic blades to composite solutions is one of the most significant material developments in modern propulsion systems. Now, as engine OEMs demand sustainability and performance, composite fan blades have the capability to be a notable change, and research data suggests that technological development is accelerating the source of composite solutions for next generation narrowbody and widebody aircraft platforms. R&D investments are also being made into automated technologies in composites and advanced repair options.

For instance, in January 2025, Shanghai Aero Engine Composites Co., Ltd. (Shangfa Composites), a subsidiary of AVIC Composites, successfully launched its first composite fan blade at its facility in Lingang, Shanghai. This milestone highlights Shangfa's progress in innovation-driven and collaborative research within the aero engine manufacturing sector.

North America Dominates the Aero Engine Composites Market Size

The region continues to be the global leader in composite integration in contemporary propulsion systems due to an unrivaled aerospace ecosystem and systems-level expertise. North America is home to the most advanced engine development programs in the world and is a beneficiary of focused R&D investment, specialized operations clusters, and indigenous skilled talent. The prominence of the market is attributed to the embracing of composites in high-stakes critical engine components, a well-established certification process for the design and execution of their implementation, a close-knit community of OEMs, material suppliers, and academic contributions. With accelerating market demand for fuel-efficient engines and sustainable aviation technologies, the original supply chains and quantity of production capacity capable of producing today's advanced, high-performance composites will continue to reinforce the region as a key player in delivering the next generation of aero engine technologies.

For instance, in May 2025, Hexcel Corporation partnered with JetZero, Inc. to qualify composite materials for JetZero's Z4 blended wing body aircraft, under the FAA's Fueling Aviation's Sustainable Transition (FAST) program. The collaboration focuses on developing lightweight, sustainable composites to support the Z4's structural demonstration and improve fuel efficiency by up to 50% over conventional designs.

Impact of U.S. Tariffs on Global Aero Engine Composites Market

Cost Inflation Across Supply Chains: Tariffs on imported carbon fiber, titanium, and resin systems have increased production costs for OEM manufacturers for fan blades, nacelles, and casings in the OEM and the tiered supplier system internationally.

Disrupted Global Sourcing: Companies that depend on European and Asian composites suppliers are experiencing delays and requalifying their suppliers and are working to shift sourcing to domestically sourced carbon composites or other tariff-neutral composites.

Certification Bottlenecks: Involving new suppliers or getting new materials accepted into engines requires FAA/EASA certification, which can take years, hugely decreasing innovation and time-to-market for next-generation engines.

Investment Uncertainty: Trade volatility has slowed and curtailed R&D spending on advanced composite materials, specifically for many sustainable propulsion systems, such as open rotors and hybrid-electric engines.

Key Players Landscape and Outlook

The aero engine composites market is influenced by a combination of government defense agencies, aerospace advanced developers, and research organizations for emerging technologies. The market is changing with advances in scramjet engines, artificial intelligence targeting, and stealth technology as these components enhance military capabilities. The future illustrates increased attention and funding to hypersonic systems, and when combined with global defense strategies emphasizing rapid and precise responses, it requires disruptive change within the aero engine composites market with heightened demand for high-speed and maneuverable strike weapons. Emerging global strategies for defense processes will increase transformation advances for operational tempo improvements regarding military space operations and defense deterrence strategies.

For instance, in June 2023, Rolls-Royce Holdings plc completed the first tests of its UltraFan technology demonstrator at its Derby, UK facility, using 100% Sustainable Aviation Fuel (SAF). The engine features carbon titanium fan blades, composite fan casing, and ceramic matrix composites, delivering a 10% efficiency gain over the Trent XWB.

Table of Contents

1. Project Scope and Definitions

2. Research Methodology

3. Impact of U.S. Tariffs

4. Executive Summary

5. Voice of Customers

  • 5.1. Respondent Demographics
  • 5.2. Factors Considered in Purchase Decisions
  • 5.3. High Strength Composites Usage
  • 5.4. Reduced Emissions

6. Global Aero Engine Composites Market Outlook, 2018-2032F

  • 6.1. Market Size Analysis & Forecast
    • 6.1.1. By Value
  • 6.2. Market Share Analysis & Forecast
    • 6.2.1. By Composite Material
      • 6.2.1.1. Carbon-Carbon Composites
      • 6.2.1.2. Ceramic Matrix Composites
      • 6.2.1.3. Polymer Matrix Composites
    • 6.2.2. By Application
      • 6.2.2.1. Fan Blades
      • 6.2.2.2. Casings and Shrouds
      • 6.2.2.3. Nozzles and Liners
    • 6.2.3. By Aircraft Type
      • 6.2.3.1. Commercial Aircraft
      • 6.2.3.2. Military Aircraft
      • 6.2.3.3. Business Jets
    • 6.2.4. By Region
      • 6.2.4.1. North America
      • 6.2.4.2. Europe
      • 6.2.4.3. Asia-Pacific
      • 6.2.4.4. South America
      • 6.2.4.5. Middle East and Africa
    • 6.2.5. By Company Market Share Analysis (Top 5 Companies and Others - By Value, 2024)
  • 6.3. Market Map Analysis, 2024
    • 6.3.1. By Composite Material
    • 6.3.2. By Application
    • 6.3.3. By Aircraft Type
    • 6.3.4. By Region

7. North America Aero Engine Composites Market Outlook, 2018-2032F

  • 7.1. Market Size Analysis & Forecast
    • 7.1.1. By Value
  • 7.2. Market Share Analysis & Forecast
    • 7.2.1. By Composite Material
      • 7.2.1.1. Carbon-Carbon Composites
      • 7.2.1.2. Ceramic Matrix Composites
      • 7.2.1.3. Polymer Matrix Composites
    • 7.2.2. By Application
      • 7.2.2.1. Fan Blades
      • 7.2.2.2. Casings and Shrouds
      • 7.2.2.3. Nozzles and Liners
    • 7.2.3. By Aircraft Type
      • 7.2.3.1. Commercial Aircraft
      • 7.2.3.2. Military Aircraft
      • 7.2.3.3. Business Jets
    • 7.2.4. By Country Share
      • 7.2.4.1. United States
      • 7.2.4.2. Canada
      • 7.2.4.3. Mexico
  • 7.3. Country Market Assessment
    • 7.3.1. United States Aero Engine Composites Market Outlook, 2018-2032F*
      • 7.3.1.1. Market Size Analysis & Forecast
        • 7.3.1.1.1. By Value
      • 7.3.1.2. Market Share Analysis & Forecast
        • 7.3.1.2.1. By Composite Material
          • 7.3.1.2.1.1. Carbon-Carbon Composites
          • 7.3.1.2.1.2. Ceramic Matrix Composites
          • 7.3.1.2.1.3. Polymer Matrix Composites
        • 7.3.1.2.2. By Application
          • 7.3.1.2.2.1. Fan Blades
          • 7.3.1.2.2.2. Casings and Shrouds
          • 7.3.1.2.2.3. Nozzles and Liners
        • 7.3.1.2.3. By Aircraft Type
          • 7.3.1.2.3.1. Commercial Aircraft
          • 7.3.1.2.3.2. Military Aircraft
          • 7.3.1.2.3.3. Business Jets
    • 7.3.2. Canada
    • 7.3.3. Mexico

All segments will be provided for all regions and countries covered

8. Europe Aero Engine Composites Market Outlook, 2018-2032F

  • 8.1. Germany
  • 8.2. France
  • 8.3. Italy
  • 8.4. United Kingdom
  • 8.5. Russia
  • 8.6. Netherlands
  • 8.7. Spain
  • 8.8. Turkey
  • 8.9. Poland

9. Asia-Pacific Aero Engine Composites Market Outlook, 2018-2032F

  • 9.1. India
  • 9.2. China
  • 9.3. Japan
  • 9.4. Australia
  • 9.5. Vietnam
  • 9.6. South Korea
  • 9.7. Indonesia
  • 9.8. Philippines

10. South America Aero Engine Composites Market Outlook, 2018-2032F

  • 10.1. Brazil
  • 10.2. Argentina

11. Middle East and Africa Aero Engine Composites Market Outlook, 2018-2032F

  • 11.1. Saudi Arabia
  • 11.2. UAE
  • 11.3. South Africa

12. Porter's Five Forces Analysis

13. PESTLE Analysis

14. Market Dynamics

  • 14.1. Market Drivers
  • 14.2. Market Challenges

15. Market Trends and Developments

16. Case Studies

17. Competitive Landscape

  • 17.1. Competition Matrix of Top 5 Market Leaders
  • 17.2. SWOT Analysis for Top 5 Players
  • 17.3. Key Players Landscape for Top 10 Market Players
    • 17.3.1. Spirit AeroSystems Holdings, Inc.
      • 17.3.1.1. Company Details
      • 17.3.1.2. Key Management Personnel
      • 17.3.1.3. Key Products Offered
      • 17.3.1.4. Key Financials (As Reported)
      • 17.3.1.5. Key Market Focus and Geographical Presence
      • 17.3.1.6. Recent Developments/Collaborations/Partnerships/Mergers and Acquisitions
    • 17.3.2. General Electric Company
    • 17.3.3. Safran SA
    • 17.3.4. Rolls-Royce Holdings plc
    • 17.3.5. CFM International SA
    • 17.3.6. Mitsubishi Heavy Industries Aero Engines, Ltd.
    • 17.3.7. Teledyne Technologies Incorporated
    • 17.3.8. Liebherr-Aerospace Lindenberg GmbH
    • 17.3.9. Toray Advanced Composites USA, Inc.
    • 17.3.10. Hexcel Corporation

Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.

18. Strategic Recommendations

19. About Us and Disclaimer