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世界の航空宇宙市場における複合材料の成長機会

Growth Opportunities for Composites in Global Aerospace Market

発行 Lucintel 商品コード 483035
出版日 ページ情報 英文 291 Pages, 169 Figures /Charts and 48 Tables
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世界の航空宇宙市場における複合材料の成長機会 Growth Opportunities for Composites in Global Aerospace Market
出版日: 2017年09月05日 ページ情報: 英文 291 Pages, 169 Figures /Charts and 48 Tables
概要

世界における航空宇宙向け複合材料マテリアルの市場規模は、2017年から2022年にかけて5.3%のCAGR (年間複合成長率) で拡大し、2022年までに176億米ドルに達すると予測されています。

当レポートでは、世界の航空宇宙向け複合材料市場について調査分析し、産業動向と予測分析、競合分析、成長機会と戦略的分析、および主要企業のプロファイルなど、体系的な情報を提供しています。

第1章 エグゼクティブサマリー

第2章 航空宇宙市場の分析

  • マクロレベルの比較経済分析
  • 世界の航空宇宙市場概要
  • 地域分析
  • 世界の航空宇宙市場における近年の動向
  • 世界の航空宇宙市場予測

第3章 商業航空宇宙市場の分析

  • 商業航空宇宙市場の概要
  • 商業航空宇宙市場の規模
  • 市場リーダー企業・市場シェア
  • 商業航空宇宙市場の動向
  • 商業航空宇宙市場の予測

第4章 リージョナル航空機市場の分析

  • リージョナル航空機市場の概要
  • リージョナル航空機市場の規模
  • 市場リーダー企業・市場シェア
  • リージョナル航空機市場の動向
  • リージョナル航空機市場の予測

第5章 一般航空機市場の分析

  • 一般航空機市場の概要
  • 一般航空機市場の規模
    • ピストンエンジン機
    • ターボプロップ機
    • ビジネスジェット機
  • 市場リーダー企業・市場シェア
  • 一般航空機市場の動向
  • 一般航空機市場の予測

第6章 ヘリコプター市場の分析

  • ヘリコプター市場の概要
  • ヘリコプター市場の規模
  • 市場リーダー
    • 民間ヘリコプター市場
    • 軍用ヘリコプター市場
  • ヘリコプター市場の動向
  • ヘリコプター市場の予測

第7章 軍用航空機市場の分析

  • 軍用航空機市場の概要
  • 軍用航空機市場の規模
  • 軍用航空機市場の動向
  • 軍用航空機市場の予測

第8章 製造工程の分析

  • 概要
  • 市場規模:製造工程別
  • 商業航空機の製造工程
  • 一般航空機の製造工程
  • ヘリコプターの製造工程
  • 軍用航空機の製造工程

第9章 世界の航空宇宙市場における複合材料用途の発展

  • 複合材料用途の発展

第10章 世界の航空宇宙市場における複合材料の用途

  • 商用航空機市場における複合材料の用途
  • リージョナル機における複合材料の用途
  • GA (一般航空機) における複合材料の用途
  • ヘリコプターにおける複合材料の用途
  • 防衛における複合材料の用途
  • 宇宙における複合材料の用途

第11章 複合材料マテリアル市場の分析

  • 複合材料マテリアルの概要
  • 複合材料マテリアル関連の事業課題
  • 複合材料の出荷:原材料タイプ別
  • 複合材料の出荷:市場セグメント別

第12章 航空宇宙市場における複合材料マテリアル:地域別

  • 複合材料マテリアル:地域別

第13章 世界の航空宇宙市場における複合材料の動向

  • 動向の概要
  • 世界の航空宇宙市場における複合材料の動向:セグメント別
  • 世界の航空宇宙市場における複合材料の動向:強化材別
  • 世界の航空宇宙市場における複合材料の動向:地域別
  • 製造工程の動向

第14章 世界の航空宇宙市場における複合材料の予測

  • 予測概要
  • 商業航空宇宙市場における複合材料の予測
  • リージョナル機市場における複合材料の予測
  • 一般航空機市場における複合材料の予測
  • ヘリコプター市場における複合材料の予測
  • 軍用航空機市場における複合材料の予測
  • 複合材料の予測:強化材別
  • 世界の航空宇宙市場における複合材料の予測:地域別
  • 製造工程の予測

図表リスト

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目次

Title:
Growth Opportunities for Composites in Global Aerospace Market
Trends, opportunities and forecast in this market to 2036 by aircraft type (commercial aircraft, regional aircraft, general aviation, helicopter, military aircraft, and others), material type (carbon composites, glass composites, aramid composites, and others), manufacturing process (ATL/AFP, hand lay-up, RTM, injection molding, compression molding and others), type of structure (primary structure, interior, engine, and others), and region (North America, Europe, Asia Pacific, and ROW).

The future of the global aerospace composite materials market looks attractive with opportunities in commercial aircraft, regional aircraft, general aviation, helicopter, military aircraft, and others. The global aerospace composite materials market is expected to reach an estimated $3.9 billion by 2022 and is forecast to grow at a CAGR of 5.3% from 2017 to 2022. The global aerospace composites end product market is expected to reach an estimated $17.6 billion by 2022.

Emerging trends, which have a direct impact on the dynamics of composites in the global aerospace marketindustry, include the use of nano-composites and recycling of advanced composites.

A total of 169 figures / charts and 48 tables are provided in this 291-page report to help in your business decisions. Sample figures with some insights are shown below.

SAMPLE FIGURES

The study includes composites in the global aerospace market size and forecast for composites in the global aerospace market through 2036 by aircraft type, material type, manufacturing process, type of structure, and region as follows:

Composites in the Aerospace Market by Aircraft Type (Value ($ Million) and Volume (M lbs) from 2011 to 2036):

  • Commercial aircraft
  • Regional aircraft
  • General aviation
  • Helicopter
  • Military aircraft
  • Others

Composites in the Aerospace Market by Material Type (Volume (M lbs) from 2011 to 2022):

  • Carbon Composites
  • Glass Composites
  • Aramid Composites
  • Others

Composites in the Aerospace Market by Manufacturing Process (Volume (M lbs) from 2011 to 2022):

  • Hand Lay-Up
  • AFP/ATL
  • RTM
  • Injection Molding
  • Compression Molding
  • Others

Composites in the Aerospace Market by type of Structure (Value ($ Million) and Volume (M lbs) from 2011 to 2022):

  • Primary Structure
  • Interior
  • Engine
  • Others

Composites in the Aerospace Market by Region (Volume (M lbs) from 2011 to 2022):

  • North America
  • Europe
  • Asia Pacific
  • The Rest of the World

Composites in the global aerospace market companies profiled in this market include Hexcel, Cytec, Toray, TenCate, and Gurit are among the major suppliers of aerospace composite materials.

On the basis of our comprehensive research, Lucintel forecasts that carbon composites will show above average growth during the forecast period. Increasing penetration of carbon composites in commercial aircraft such as B787, A350XWB, and A380 is expected to spur growth for this segment over the forecast period from 2017 to 2022.

By aircraft type, commercial aircraft is expected to remain the largest market by value and volume consumption followed by military aircraft.

North America is expected to remain the largest region during the forecast period due to high demand for newer aircraft and the ongoing replacement of an aging fleet.

Some of the features of “Growth Opportunities for Composites in the Global Aerospace Market 2017-2036: Trends, Forecast, and Opportunity Analysis” include:

  • Market size estimates: Composites in the global aerospace market size estimation in terms of value ($M) and volume (M Lbs.) shipment.
  • Trend and forecast analysis: Market trend (2011-2016) and forecast (2017-2022) by segments and region.
  • Segmentation analysis: Composites in the global aerospace market size by various applications such as aircraft type, material type, manufacturing process, type of structure in terms of value and volume shipment.
  • Regional analysis: Composites in the global aerospace market breakdown by North America, Europe, Asia Pacific, and the Rest of the World.
  • Growth opportunities: Analysis on growth opportunities in different applications and regions of composites in the global aerospace market.
  • Strategic analysis: This includes M&A, new product development, and competitive landscape of composites in the global aerospace market.
  • Analysis of competitive intensity of the industry based on Porter's Five Forces model.

This report answers the following 6 key questions:

  • Q.1. What are some of the most promising, high-growth opportunities for the composites in the aerospace market by aircraft type (commercial aircraft, regional aircraft, general aviation, helicopter, military aircraft, and others), material type (carbon composites, glass composites, aramid composites, and others), manufacturing process (ATL/AFP, hand lay-up, RTM, injection molding, compression molding and others), type of structure (primary structure, interior, engine, and others), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
  • Q.2. Which product segments will grow at a faster pace and why?
  • Q.3. Which region will grow at a faster pace and why?
  • Q.4. What are the key factors affecting market dynamics? What are the drivers and challenges of the composites in the global aerospace market?
  • Q.5. Who are the major players in this composites in the global aerospace market? What strategic initiatives are being implemented by key players for business growth?
  • Q.6. What are emerging trends in this composites in the global aerospace market and the reasons behind them?

Table of Contents

1. Executive Summary

2. Aerospace Market Analysis

  • 2.1: Macro-Level Comparative Economic Analysis
  • 2.2: Global Aerospace Market Overview
  • 2.3: Regional Analysis
  • 2.4: Recent Trends in the Global Aerospace Market
  • 2.5: Forecast for the Global Aerospace Market

3. Commercial Aerospace Market Analysis

  • 3.1: Overview of the Commercial Aerospace Market
  • 3.2: Commercial Aerospace Market Size
    • 3.2.1: Narrow-Body Aircraft
    • 3.2.2: Wide-Body Aircraft
  • 3.3: Market Leaders and Market Shares
  • 3.4: Commercial Aerospace Market Trend
    • 3.4.1: Narrow-Body Aircraft
    • 3.4.2: Wide-Body Aircraft
  • 3.5: Commercial Aerospace Market Forecast

4. Regional Aircraft Market Analysis

  • 4.1: Overview of the Regional Aircraft Market
  • 4.2: Regional Aircraft Market Size
  • 4.3: Market Leaders and Market Shares
  • 4.4: Regional Aircraft Market Trends
  • 4.5: Regional Aircraft Market Forecast

5. General Aviation Market Analysis

  • 5.1: Overview of the General Aviation Market
  • 5.2: General Aviation Market Size
    • 5.2.1: Piston Aircraft
    • 5.2.2: Turboprop Aircraft
    • 5.2.3: Business Jet Aircraft
  • 5.3: Market Leaders and Market Shares
  • 5.4: General Aviation Market Trends
  • 5.5: General Aviation Market Forecast

6. Helicopter Market Analysis

  • 6.1: Overview of the Helicopter Market
  • 6.2: Helicopter Market Size
  • 6.3: Market Leaders
    • 6.3.1: Civil Helicopter Market
    • 6.3.2: Military Helicopter Market
  • 6.4: Helicopter Market Trends
  • 6.5: Helicopter Market Forecast

7. Military Aircraft Market Analysis

  • 7.1: Overview of the Military Aircraft Market
  • 7.2: Military Aircraft Market Size
  • 7.3: Military Aircraft Market Trends
  • 7.4: Military Aircraft Market Forecast

8. Manufacturing Process Analysis

  • 8.1: Overview
    • 8.1.1: Hand Lay-Up
    • 8.1.2: ATP and AFP
    • 8.1.3: Filament Winding
    • 8.1.4: Roll Wrapping
  • 8.2: Market Size by Manufacturing Process
  • 8.3: Commercial Aircraft Manufacturing Process
  • 8.4: General Aircraft Manufacturing Process
  • 8.5: Helicopter Manufacturing Process
  • 8.6: Military Aircraft Manufacturing Process

9. Evolution of Composite Applications in the Global Aerospace Market

  • 9.1: Evolution of Composite Applications

10. Composite Applications in the Global Aerospace Market

  • 10.1: Application of Composites in the Commercial Aircraft Market
  • 10.2: Application of Composites in Regional Aircraft
  • 10.3: Application of Composites in GA
  • 10.4: Application of Composites in Helicopters
  • 10.5: Application of Composites in Defense
  • 10.6: Application of Composites in Space

11. Composite Materials Market Analysis

  • 11.1: Composite Materials Overview
  • 11.2: Business Issues with Composite Materials
  • 11.3: Buy and Fly Weight Analysis
  • 11.4: Composite Shipments by Raw Material Type
  • 11.5: Composite Shipments by Market Segment
    • 11.5.1: Composite Materials in the Commercial Aerospace Market
    • 11.5.2: Composite Materials in the Regional Aircraft Market
    • 11.5.3: Composite Materials in the General Aviation Market
    • 11.5.4: Composite Materials in the Helicopter Market
    • 11.5.5: Composite Materials in the Military Market

12. Composite Materials in the Aerospace Market by Region

  • 12.1: Composite Materials by Region

13. Trends for Composites in the Global Aerospace Market

  • 13.1: Trend Overview
  • 13.2: Trends of Composites in the Global Aerospace Market by Segments
  • 13.3: Trends of Composites in the Global Aerospace Market by Reinforcement
  • 13.4: Trends of Composites in the Global Aerospace Market by Region
  • 13.5: Trends in Manufacturing Processes

14. Forecast for Composites in Global Aerospace Market

  • 14.1: Forecast Overview
  • 14.2: Forecast for Composites in the Commercial Aerospace Market
  • 14.3: Forecast for Composites in the Regional Aircraft Market
  • 14.4: Forecast for Composites in the General Aviation Market
  • 14.5: Forecast for Composites in the Helicopter Market
  • 14.6: Forecast for Composites in the Military Aircraft Market
  • 14.7: Forecast for Composites by Reinforcement
  • 14.8: Forecast for Composites in the Global Aerospace Market by Region
  • 14.9: Forecasts in Manufacturing Processes

List of Figures

Chapter 1. Executive Summary

  • Figure 1.1: Porter's Five Forces Analysis of the Global Aerospace Industry

Chapter 2. Aerospace Market Analysis

  • Figure 2.1: GDP Growth Rate Year-over-Year by Region
  • Figure 2.2: Consumer Confidence Index
  • Figure 2.3: Global Population in 2016 and 2022 (Source: US Census Bureau)
  • Figure 2.4: US Budget Deficit and Surplus by Month (March 2013- March 2017)
  • Figure 2.5: Global Aerospace Market by Segment
  • Figure 2.6: Global Aerospace Market ($B) by Aircraft Type in 2016
  • Figure 2.7: Global Aerospace Market (Units) by Aircraft Type in 2016
  • Figure 2.8: Total Fleet (Commercial and Regional Aircraft) by Region in 2016
  • Figure 2.9: Total Fleet (Commercial and Regional Aircraft) by Region in 2036
  • Figure 2.10: Trends of Delivery (Units) in the Global Aerospace Market by Aircraft Type (2011-2016)
  • Figure 2.11: Trends of ($B) in the Global Aerospace Market by Aircraft Type (2011-2016)
  • Figure 2.12: Global Aerospace Market ($B) by Aircraft Type in 2011
  • Figure 2.13: Global Aerospace Market ($B) by Aircraft Type in 2016
  • Figure 2.14: Composite Materials Shipment ($M) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 2.15: Forecast for ($B) in the Global Aerospace Market by Aircraft Type
  • Figure 2.16: Trends and Forecast for ($B) in the Global Aerospace Market by Aircraft Type

Chapter 3. Commercial Aerospace Market Analysis

  • Figure 3.1: Classification of Commercial Aircraft Market
  • Figure 3.2: Commercial Aircraft Order (Units Shipment) in 2016
  • Figure 3.3: Commercial Aircraft Delivery (Unit Shipment) in 2016
  • Figure 3.4: Commercial Aircraft Order (Units Shipment) by Body Type in 2016
  • Figure 3.5: Trends of Delivery (Units) by Boeing and Airbus in Commercial Aircraft
  • Figure 3.6: Trend of Order (Units) by Boeing and Airbus in Commercial Aircraft
  • Figure 3.7: Trends of Delivery (Units) in Commercial Aircraft by Model (2011-2016)
  • Figure 3.8: Trends of Delivery (Units) by Narrow-Body and Wide-Body Aircraft
  • Figure 3.9: Empty Weight Savings Per Seat for B787 and A350XWB Compared to B777
  • Figure 3.10: Forecast for Commercial Aircraft Delivery (Units) (2017-2022)
  • Figure 3.11: Trends and Forecast (2001-2036) for the Commercial Aircraft Market (Units) by Narrow Body and Wide Body Type
  • Figure 3.12: Trends and Forecast (2001-2036) ($B) in Commercial Aircraft Market

Chapter 4. Regional Aircraft Market Analysis

  • Figure 4.1: Classification of the Regional Aircraft Market
  • Figure 4.2: Regional Aircraft Delivery (Units) by Engine Type in 2016
  • Figure 4.3: Regional Aircraft Delivery (Units) by Manufacturer in 2016
  • Figure 4.4: Regional Aircraft ($B) by Manufacturer in 2016
  • Figure 4.5: Monthly Frequency for Turboprop and Regional Jets
  • Figure 4.6: Relationship of Fuel Price and Turboprop Orders
  • Figure 4.7: Regional Aircraft Delivery (Units) by Manufacturer in 2011
  • Figure 4.8: Regional Aircraft Delivery (Units) by Manufacturer in 2016
  • Figure 4.9: Trends of Regional Aircraft Delivery (Units) (2011-2016)
  • Figure 4.10: Trends of the Regional Aircraft Market ($B) (2011-2016)
  • Figure 4.11: Forecast for Regional Aircraft Delivery (Units) (2017-2022)
  • Figure 4.12: Forecast for Regional Aircraft Market ($B) (2017-2022)
  • Figure 4.13: Trends and Forecast (2001-2036) for the Regional Aircraft Market ($ B)
  • Figure 4.14: Trends and Forecast (2001-2036) for the Regional Aircraft Market (Units)

Chapter 5. General Aviation Market Analysis

  • Figure 5.1: Classification of the General Aviation Aircraft Market
  • Figure 5.2: General Aviation Market ($ Shipment) by Type of Aircraft (Piston, Turboprop, and Business Jet) in 2016
  • Figure 5.3: General Aviation Delivery (Units) by Engine Type in 2016
  • Figure 5.4: General Aviation Market (Unit) by Manufacturer in 2016
  • Figure 5.5: General Aviation Delivery (Units) by Engine Type in 2011
  • Figure 5.6: General Aviation Delivery (Units) by Engine Type in 2016
  • Figure 5.7: Trends of General Aviation Aircraft Delivery (Units) (2011-2016)
  • Figure 5.8: Trends of General Aviation Delivery ($ B) (2011-2016)
  • Figure 5.9: Gulfstream Product Classification and New Product by Entry into Service (Source: General Dynamics)
  • Figure 5.10: Forecast for General Aviation Market ($B) (2017-2022)
  • Figure 5.11: Forecast for General Aviation Aircraft Delivery (Units) (2017-2022)
  • Figure 5.12: Trends and Forecast for General Aviation Market (Units)
  • Figure 5.13: Trends and Forecast (2001-2036) for the General Aviation Market ($B)

Chapter 6. Helicopter Market Analysis

  • Figure 6.1: Classification of the Helicopter Market
  • Figure 6.2: Helicopter Delivery (Units) by Application in 2016
  • Figure 6.3: Helicopter Market ($B) by Application in 2016.
  • Figure 6.4: Helicopter Delivery (Units) by Manufacturer in 2016
  • Figure 6.5: Helicopter Market ($ Billion) by Manufacturer in 2016
  • Figure 6.6: Helicopter Delivery (Units) by Civil Helicopter Manufacturers in 2016
  • Figure 6.7: Helicopter Delivery (Units) by Military Helicopter Manufacturers in 2016
  • Figure 6.8: Helicopter Delivery (Units) by Application in 2011
  • Figure 6.9: Helicopter Delivery (Units) by Application in 2016.
  • Figure 6.10: Trends of Helicopter Delivery (Units) (2011-2016)
  • Figure 6.11: Trends of Helicopter Market ($B) (2011-2016)
  • Figure 6.12: Trends of Helicopter Market ($B) in 2011 and 2016
  • Figure 6.13: Forecast of Shipment in Helicopter Delivery (Units) (2017-2022)
  • Figure 6.14: Forecast for the Helicopter Market ($B) (2017-2022)
  • Figure 6.16: Trends and Forecast (2001-2036) of the Helicopter Market ($ Billion)
  • Figure 6.16: Trends and Forecast (2001-2036) for Delivery (Units) in the Helicopter Market

Chapter 7. Military Aircraft Market Analysis

  • Figure 7.1: Classification of the Military Aircraft Market
  • Figure 7.2: Military Aircraft Market (Units) by Application in 2016
  • Figure 7.3: Trends of Military Aircraft Delivery (Units) (2011-2016)
  • Figure 7.4: Trends of Military Aircraft Market ($B) (2011-2016)
  • Figure 7.5: Forecast for Military Aircraft Delivery (Units) (2017-2022)
  • Figure 7.6: Forecast for the Military Aircraft Market ($B) (2017-2022)
  • Figure 7.7: Trends and Forecast (2001-2036) for the Military Aircraft Market (Units)
  • Figure 7.8: Trends and Forecast (2001-2036) for the Military Aircraft Market ($B)

Chapter 8. Manufacturing Process Analysis

  • Figure 8.1: Composite Distribution (M lbs) in the Global Aerospace Market by Manufacturing Process in 2016

Chapter 9. Evolution of Composite Applications in the Global Aerospace Market

  • Figure 9.1: Evolution of Composite Applications in Commercial Aircraft
  • Figure 9.2: Evolution of Composite Applications in Military Aircraft
  • Figure 9.3: Evolution of Composite Applications in Rotorcraft

Chapter 10. Composite Applications in the Global Aerospace Market

  • Figure 10.1: Carbon Composite Tail Structure
  • Figure 10.2: Airbus Access Panels
  • Figure 10.3: Keel Beam Held by a Member of Airbus Staff
  • Figure 10.4: Pressure Bulkhead of the Airbus A340 Fuselage
  • Figure 10.5: Aircraft Braking Systems - Airbus A321 and Boeing 757
  • Figure 10.6: Aircraft Horizontal Stabilizer
  • Figure 10.7: Kevlar Duct
  • Figure 10.8: Jet Engine Stator Vane
  • Figure 10.9: Dyn'Aero - Wing Structure
  • Figure 10.10: Parabolic Reflector

Chapter 11. Composite Materials Market Analysis

  • Figure 11.1: Total Buy Materials Distribution (M lbs.) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 11.2: Total Fly Materials Distribution (M lbs.) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 11.3: Total Buy Materials Distribution (M lbs.) by Aircraft Type in 2016
  • Figure 11.4: Material Distribution (%) in Various Wide-Body Aircraft
  • Figure 11.5: Percentage Distribution of Materials in Airbus A340 for Buy Case
  • Figure 11.6: Percentage Distribution of Materials in Airbus A340 for Fly Case
  • Figure 11.7: Material Distribution in Airbus A340 for Fly Case
  • Figure 11.8: Composite Shipments (M lbs.) by Reinforcement Type in Various Segments of the Global Aerospace Market in 2016
  • Figure 11.9: Composite Materials Shipments (M lbs.) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 11.10: Composite Materials Shipments ($M) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 11.11: Composite Materials Shipment (M lbs.) in Commercial Aircraft Market for Making New and Aftermarket Aircraft in 2016
  • Figure 11.12: Composites (%) in Various Narrow-Body Aircraft in 2016
  • Figure 11.13: Trends of Composite Shipments (M lbs.) in the Narrow-Body Commercial Aircraft Market
  • Figure 11.14: Composites (%) in Various Wide-Body Aircraft in 2016
  • Figure 11.15: Trends of Composite Shipments (M lbs) in the Wide-Body Commercial Aircraft Market
  • Figure 11.16: Composite Materials Shipments (M lbs.) in Regional Aircraft for Making New and Aftermarket Aircraft in 2016
  • Figure 11.17: Percentage of Composites in Regional Aircraft in 2016
  • Figure 11.18: Composite Materials Shipment (M lbs.) by Engine Type in the Regional Aircraft Market in 2016
  • Figure 11.19: Distribution (M lbs.) of Composites by Type of Reinforcement in Regional Aircraft in 2016
  • Figure 11.20: Composite Materials Shipments (M lbs.) in the General Aviation Market in 2016
  • Figure 11.21: Composite Materials Shipment (M lbs.) by Engine Type in the General Aviation Market in 2016
  • Figure 11.22: Composite Materials Shipment (M lbs.) by Type of Reinforcement in General Aviation Market in 2016
  • Figure 11.23: Composite Materials Distribution (%) in the Piston Aircraft (Gulfstream G-550) by Applications
  • Figure 11.24: Composite Material Distribution (%) in Turboprop Aircraft (Amphibian) by Applications
  • Figure 11.25: Composite Material Distribution (%) in Business Jet Aircraft (Citation-X) by Application
  • Figure 11.26: Composite Materials Shipment (M lbs.) in Helicopter for Making New and Aftermarket Aircraft in 2016
  • Figure 11.27: Composite Materials Shipment (M lbs.) by Type of Helicopter in 2016
  • Figure 11.28: Composite Material Distribution (%) in Civil Helicopters (S-92 Helibus) by Application
  • Figure 11.29: Composite Material Distribution (%) in Military Helicopters (Apache) by Application
  • Figure 11.30: Composites Materials Shipment (M lbs.) in Military Aircraft for Making New and Aftermarket Aircraft in 2016
  • Figure 11.31: Composite Materials Distribution (%) for F/A-18 E/F by Application
  • Figure 11.32: Composite Shipments (M lbs) for C-130J by Applications
  • Figure 11.33: Composite Materials Distribution (%) for Global Hawk by Application

Chapter 12. Composite Materials in the Aerospace Market by Region

  • Figure 12.1: Composites Distribution (M lbs) in the Global Aerospace Market by Region in 2016
  • Figure 12.2: Composite Distribution ($M) in the Global Aerospace Market by Region in 2016

Chapter 13. Trends for Composites in the Global Aerospace Market

  • Figure 13.1: Composite Materials Shipment (M lbs.) in the Global Aerospace Market by Aircraft Type in 2011
  • Figure 13.2: Composite Materials Shipment ($M) in the Global Aerospace Market by Aircraft Type in 2011
  • Figure 13.3: Composite Materials Shipment (M lbs) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 13.4: Composite Materials Shipment ($M) in the Global Aerospace Market by Aircraft Type in 2016
  • Figure 13.5: Trends of Composite Shipments (M lbs) in the Global Aerospace Market by Aircraft Type (2011-2016)
  • Figure 13.6: Trends of Composite Shipments ($M) in the Global Aerospace Market by Aircraft Type (2011-2016)
  • Figure 13.7: Composite Shipments by Reinforcement Type in 2011 and 2016
  • Figure 13.8: Trends of Composite Shipments (M lbs) in the Global Aerospace Market by Region (2011-2016)
  • Figure 13.9: Growth Trends of Composites (M lbs) by Region (2011-2016)
  • Figure 13.10: Composite Distribution (M lbs) in the Global Aerospace Market by Region in 2011
  • Figure 13.11: Composite Distribution ($M) in the Global Aerospace Market by Region in 2011
  • Figure 13.12: Composite Distribution (M lbs) in the Global Aerospace Market by Region in 2016
  • Figure 13.13: Composite Distribution ($M) in the Global Aerospace Market by Region in 2016
  • Figure 13.14: Composite Distribution (M lbs) in the Global Aerospace Market by Manufacturing Process in 2011
  • Figure 13.15: Composite Distribution (M lbs) in the Global Aerospace Market by Manufacturing Process in 2016
  • Figure 13.16: CAGR (2011-2016) for Manufacturing Processes in the Global Aerospace Market

Chapter 14. Forecast for Composites in Global Aerospace Market

  • Figure 14.1: Total Composite Shipments (M lbs.) in the Global Aerospace Market by Aircraft Type (2001-2036)
  • Figure 14.2: Total Composite Shipments ($B) in Global Aerospace Market (2001-2036)
  • Figure 14.3: Forecast for Composite Shipments (M lbs.) in the Global Aerospace Market by Aircraft Type (2017-2022)
  • Figure 14.4: Forecast for Composite Shipments ($M) in the Global Aerospace Market by Aircraft Type (2017-2022)
  • Figure 14.5: Average Composite Shipments (M lbs.) in the Commercial Aircraft Market
  • Figure 14.6: Average Annual Composite Shipments ($M) in the Commercial Aerospace Market
  • Figure 14.7: Total Composite Shipments (M lbs.) in the Commercial Aircraft Market (2001-2036)
  • Figure 14.8: Total Composite Shipments ($M) in the Commercial Aircraft Market (2001-2036)
  • Figure 14.9: Total Composite Shipments (M lbs.) in the Commercial A Market by OEMs (2001-2036)
  • Figure 14.10: Total Composite Shipments (M lbs.) in Wide-Body Aircraft and All Others in the Global Aerospace Market (2001-2016) and (2017-2026)
  • Figure 14.11: Total Composite Shipments (M lbs.) in the Regional Aircraft Market
  • Figure 14.12: Total Composite Shipments ($M) in the Regional Aircraft Market
  • Figure 14.13: Total Composite Shipments (M lbs.) in the General Aviation Market
  • Figure 14.14: Total Composite Shipments ($M) in the General Aviation Market
  • Figure 14.15: Total Composite Shipments (M lbs) in the Helicopter Market
  • Figure 14.16: Total Composite Shipments ($M) in the Helicopter Market
  • Figure 14.17: Total Composite Shipments (M lbs.) in the Military Aircraft Market
  • Figure 14.18: Total Composite Shipments ($M) in the Military Aircraft Market
  • Figure 14.19: Forecast for Composite Shipments (M lbs.) in the Global Aerospace Market by Region (2017-2022)
  • Figure 14.20Growth Forecast for Composites (M lbs.) by Region (2017-2022)
  • Figure 14.21: Composite Distribution (M lbs.) in the Global Aerospace Market by Region in 2022
  • Figure 14.22: Composite Distribution ($M) in the Global Aerospace Market by Region in 2022
  • Figure 14.23: Composite Shipments (M lbs.) in Various Market Segments of the Global Aerospace Industry in 2022
  • Figure 14.24: CAGR (2017-2022) for Manufacturing Process in the Global Aerospace Industry

List of Tables

Chapter 1. Executive Summary

  • Table 1.1: Global Aerospace Market Parameters and Attributes
  • Table 1.2: Global Aerospace Composite Market Parameters and Attributes

Chapter 2. Aerospace Market Analysis

  • Table 2.1: GDP and Unemployment Rate for Leading Countries (Source: The Economist)
  • Table 2.2: Interest and Exchange Rates for Leading Countries
  • Table 2.3: Weight and Price of Various Aircraft
  • Table 2.4: Trends in the Aerospace Market ($ Shipment) by Industry Sector
  • Table 2.5: Trend in Aerospace Market in Terms of Units Delivered
  • Table 2.6: Forecast for Various Aircraft (2017-2026) and (2017-2036) in Terms of New Aircraft Delivered and Revenue Earned
  • Table 2.7: Regional Aircraft Forecast (2017-2036) in Terms of New Aircraft Delivered by Seat Segment

Chapter 3. Commercial Aerospace Market Analysis

  • Table 3.1: Specifications of Narrow-Body Aircraft
  • Table 3.2: Specifications of Wide-Body Aircraft
  • Table 3.3: Short-Term 2017 Outlook for Commercial Aerospace Market
  • Table 3.4: Long-Term Outlook for Commercial Aerospace Market
  • Table 3.5: Forecast for Various Aircraft (2017-2026) and (2017-2036) in Terms of New Aircraft Delivered and Revenue Generated

Chapter 4. Regional Aircraft Market Analysis

  • Table 4.1: Regional Aircraft by Type (Turboprop and Jets) in 2016
  • Table 4.2: Short-Term 2017 Outlook for Regional Aerospace Market
  • Table 4.3: Long-Term Outlook for Regional Aerospace Market
  • Table 4.4: Forecast for Regional Aircraft (2017-2026) and (2017-2036) in Terms of New Aircraft Delivery and Revenue

Chapter 5. General Aviation Market Analysis

  • Table 5.1: Segmentation of Business Jet Market by Size
  • Table 5.2: Globally Manufactured Aircraft Shipments by Type in 2016
  • Table 5.3: Specifications of Single-Engine (Cessna-Skyhawk) Aircraft
  • Table 5.4: Specifications of Multi-Engine (Baron 58 - Raytheon) Aircraft
  • Table 5.5: Specifications of Turboprop (Cessna-Caravan) Aircraft
  • Table 5.6: Specifications of Business Jet (Cessna- Citation X) Aircraft
  • Table 5.7: Major New General Aviation Entry by Year
  • Table 5.8: Forecast for General Aviation (2017-2026) and (2017-2036) in Terms of New Aircraft Delivered and Revenue Generated

Chapter 6. Helicopter Market Analysis

  • Table 6.1: Classification of the Helicopter Market by Engine Type
  • Table 6.2: Forecast for Helicopter (2017-2026) and (2017-2036) in Terms of new aircraft delivered and revenue generated

Chapter 7. Military Aircraft Market Analysis

  • Table 7.1: Forecast for Military Aircraft Market (2017-2026) and (2017-2036) in terms of New Aircraft Delivered and Revenue Generated

Chapter 9. Evolution of Composite Applications in the Global Aerospace Market

  • Table 9.1: Evolution of Composite Material Applications at Airbus

Chapter 10. Composite Applications in the Global Aerospace Market

  • Table 10.1: Aerospace Structures Made of Composites
  • Table 10.2: Selected Materials and Processes for Airbus A380

Chapter 11. Composite Materials Market Analysis

  • Table 11.1: Airlines' Key Requirements
  • Table 11.2: Aircraft Manufacturers' Key Requirements
  • Table 11.3: Total Materials Consumption (Buy Weight of All Materials) by Various Market Segments in 2016
  • Table 11.4: Raw Material Distribution in Different Commercial Aircraft
  • Table 11.5: Estimated Buy-to-Fly Ratio for Different Materials Used in a Typical Commercial Aircraft (A340)
  • Table 11.6: Summary of Composite Usage in Boeing Aircraft
  • Table 11.7: Summary of Composite Usage in Airbus Production
  • Table 11.8: Summary of Composites Usage in General Aviation
  • Table 11.9: Summary of Composite Usage in Helicopters
  • Table 11.10: Composites Percentage for Various Defense Aircraft
  • Table 11.11: Summary of Composite Material Usage in Military Aircraft Production
  • Table 11.12: Lockheed Martin Aircraft Production Sites
  • Table 11.13: Composite Materials Breakdown by Application in F/A-18 E/F

Chapter 13. Trends for Composites in the Global Aerospace Market

  • Table 13.1: Trends in Composite Shipments by Volume and Value (2011-2016)
  • Table 13.2: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Reinforcement Type (2011-2016)

Chapter 14. Forecast for Composites in Global Aerospace Market

  • Table 14.1: Forecast (2017-2036) of Composite Shipments in the Global Aerospace Market (M lbs.) by Reinforcement Type
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