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Composites in the Aerospace Market Report: Trends, Forecast and Competitive Analysis

June 2020 | 311 pages | ID: C51C52A1AB68EN
Lucintel

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The future of the global aerospace composite materials market looks promising with opportunities in commercial aircraft, regional aircraft, general aviation, helicopter, and military aircraft markets. The global aerospace composites materials market is expected to decline in 2020 due to global economic recession led by COVID-19. However, market will witness recovery in the year 2021 and it is expected to reach an estimated $3.3 billion by 2025 with a CAGR of 5% to 7% from 2020 to 2025. The major drivers for this market are growing demand for lightweight materials to increase fuel efficiency and growth of aircraft with high composites penetration such B787 and A350WXB.

An emerging trend, which has a direct impact on the dynamics of the industry, includes the recycling of advanced composites. Hexcel, Cytec Solvay Group, Toray, Gurit, and Teijin are among the major suppliers of aerospace composites materials.

A total of 174 figures/charts and 48 tables are provided in this 311-page report to help in your business decisions. Sample figures with some insights are shown below. To learn the scope of, benefits, companies researched and other details of aerospace composite material market report download the report brochure.

The study includes a forecast of the growth opportunities for the composites in the global aerospace market by aircraft type, reinforcement type, manufacturing process, type of structure, component, and region as follows:

By Aircraft Type [Volume (M lbs) and Value ($ Million) from 2014 to 2039]:
  • Commercial Aircraft
  • Military Aircraft
  • Regional Aircraft
  • General Aviation
  • Helicopter
  • Others
By Reinforcement Type [Volume (M lbs) from 2014 to 2025]:
  • Carbon Composites
  • Glass Composites
  • Aramid Composites
  • Others
By Manufacturing Process [Volume (M lbs) from 2014 to 2025]:
  • AFP/ALT
  • RTM
  • Compression Molding
  • Injection Molding
  • Hand Layup
  • Others
By Type of Structure [Volume (M lbs) and Value ($ Million) from 2014 to 2025]:
  • Primary Structure
  • Interior
  • Engine
  • Others
By Component [Volume (M lbs) from 2014 to 2025]:
  • Wings
  • Fuselage
  • Empennage
  • Engine
  • Interior
  • Radome
  • Rotor Blade
  • Landing Gear
  • Others
By Region [Volume (M lbs) and Value ($ Million) from 2014 to 2025]:
  • North America
  • Europe
  • Asia Pacific
  • ROW
Some of the aerospace composite materials companies profiled in this report include Hexcel, Cytec Solvay Group, Toray, Gurit, and Teijin.

In this market, carbon fiber, glass fiber, and aramid fiber are used to fabricate various aircraft components. On the basis of our comprehensive research, Lucintel forecasts that carbon fiber based composites will remain the largest market during the forecast period. Increasing penetration of carbon composites in commercial aircraft, such as B787 and A350XWB is expected to drive the demand for this segment over the forecast period from 2020 to 2025.

Within the aerospace composites market, commercial aircraft will remain the largest market by value and volume consumption followed by military aircraft.

By type of structure, primary structure will remain the largest market by value and volume due to higher composite consumption.

North America will remain the largest region during the forecast period due to a higher demand for newer aircraft and the ongoing replacement of an aging fleet.

Features of Composites in the Global Aerospace Market
  • 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 (2014-2019) and forecast (2020-2025) by component type, structure type, aircraft type, reinforcement and manufacturing process type.
  • Segmentation analysis: Composites in the global aerospace market size by various segments, such as aircraft type, type of structure, in terms of value 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 segments and regions for composites in the global aerospace market.
  • Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
This report answers following 11 key questions

Q. 1. How big are the opportunities for composites in the global aerospace market by aircraft type (commercial aircraft, regional aircraft, general aviation, helicopter, military aircraft, others), by reinforcement type (carbon composites, glass composites, aramid composites, others), manufacturing process (hand lay-up, AFP/ATL, RTM, injection molding, compression molding, others), type of structure (primary structure interior, engine, others), component (wing, fuselage, empennage, engine, interior, rotor blade, radome, landing gear, 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, challenges, and business risks in this market?
Q.5. What are the business risks and competitive threats in this market?
Q.6. What are the emerging trends in this market and the reasons behind them?
Q.7. What are some of the changing demands of customers in the market?
Q.8. What are the new developments in the market and which companies are leading these developments?
Q.9. Who are the major players in this market? What strategic initiatives are being taken by key companies for business growth?
Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by product substitution?
Q. 11. What M&A activity has occurred in the last have years and what has its impact been on the industry?
1. EXECUTIVE SUMMARY

2. AEROSPACE MARKET ANALYSIS

2.1: Macro-Level Comparative Economic Analysis
2.2: Supply Chain
2.3: Global Aerospace Market Overview
2.4: Regional Analysis
2.5: Recent Trends in the Global Aerospace Market
2.6: 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 Share
3.4: Commercial Aerospace Market Trends
  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: General Aviation Market Trends
5.4: 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: Injection Molding
  8.1.5: Compression Molding
  8.1.6: Resin Transfer Molding (RTM)
  8.1.7: 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 General Aviation
10.4: Application of Composites in Helicopters
10.5: Application of Composites in Defense
10.6: Application of Composites in Space

11. COMPOSITE MATERIAL MARKET ANALYSIS

11.1: Overview of Composite Materials
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 Segment
13.3: Trends of Composites in the Global Aerospace Market by Component
13.4: Trends of Composites in the Global Aerospace Market by Reinforcement
13.5: Trends of Composites in the Global Aerospace Market by Structure Type
13.6: Trends of Composites in the Global Aerospace Market by Region
13.7: Trends in Manufacturing Processes

14. FORECAST FOR COMPOSITES IN THE GLOBAL AEROSPACE MARKET

14.1: Forecast Overview
14.2: Forecast for Composites in the Global Commercial Aerospace Market
14.3: Forecast for Composites in the Global Aerospace Market by Component
14.4: Forecast for Composites in the Regional Aircraft Market
14.5: Forecast for Composites in the General Aviation Market
14.6: Forecast for Composites in the Helicopter Market
14.7: Forecast for Composites in the Military Aircraft Market
14.8: Forecast for Composites by Reinforcement
14.9: Forecast for Composites in the Global Aerospace Market by Type of Structure
14.10: Forecast for Composites in the Global Aerospace Market by Region
14.11: Forecast in Manufacturing Processes

15. COMPANY PROFILES OF LEADING PLAYERS

15.1: Hexcel Corporation
15.2: Toray Industries Inc
15.3: Teijin Limited
15.4: Cytec Solvay Group
15.5: Zodiac Aerospace
15.6: Spirit AeroSystems, Inc
15.7: Elbit Systems

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 2019 and 2025 (Source: US Census Bureau)
Figure 2.4: US Budget Deficit and Surplus by Month (March 2016-Nov 2019)
Figure 2.5: Supply Chain of Composites in the Global Aerospace Market
Figure 2.6: Global Aerospace Market by Segment
Figure 2.7: Global Aerospace Market ($B) by Aircraft Type (2019)
Figure 2.8: Global Aerospace Market by Aircraft Type (2019)
Figure 2.9: Total Fleet by Region (2019)
Figure 2.10: Total Fleet by Region (2039)
Figure 2.11: Trends of Delivery in the Global Aerospace Market by Aircraft Type (2014-2019)
Figure 2.12: Trends of the Global Aerospace Market ($B) by Aircraft Type (2014-2019)
Figure 2.13: Global Aerospace Market ($B) by Aircraft Type (2014)
Figure 2.14: Global Aerospace Market ($B) by Aircraft Type (2019)
Figure 2.15: Composite Material Shipments in the Global Aerospace Market ($M) by Aircraft Type (2019)
Figure 2.16: Forecast for the Global Aerospace Market ($B) by Aircraft Type (2020-2025)

CHAPTER 3. COMMERCIAL AEROSPACE MARKET ANALYSIS

Figure 3.1: Classification of Commercial Aircraft Market
Figure 3.2: Market Distribution of Commercial Aircraft Orders (2019)
Figure 3.3: Commercial Deliveries by Aircraft (2019)
Figure 3.4: Commercial Aircraft Orders by Body Type (2019)
Figure 3.5: Trends of Commercial Aircraft Delivered by Boeing and Airbus (2014-2019)
Figure 3.6: Trends of Orders by Boeing and Airbus in Commercial Aircraft (2014-2019)
Figure 3.7: Trends of Delivery in Commercial Aircraft by Model (2014-2019)
Figure 3.8: Trends of Delivery by Body Type in in Commercial Aircraft (2014-2019)
Figure 3.9: Empty Weight Savings Per Seat for B787 and A350XWB Compared to B777
Figure 3.10: Forecast for Commercial Aircraft Delivery (2020-2025)
Figure 3.11: Trends and Forecast for Delivery in Commercial Aircraft by Narrow Body and Wide Body
Figure 3.12: Trends and Forecast for the Commercial Aircraft Market ($B)

CHAPTER 4. REGIONAL AIRCRAFT MARKET ANALYSIS

Figure 4.1: Classification of the Regional Aircraft Market
Figure 4.2: Regional Aircraft Delivery by Engine Type (2019)
Figure 4.3: Regional Aircraft Delivery by Unit (2019)
Figure 4.4: Regional Aircraft by Manufacturer (2019)
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 by Unit (2014)
Figure 4.8: Regional Aircraft Delivery by Unit (2019)
Figure 4.9: Trends of Regional Aircraft Delivery (2014-2019)
Figure 4.10: Trends of the Regional Aircraft Market ($B) (2014-2019)
Figure 4.11: Forecast for the Regional Aircraft Delivery (2020-2025)
Figure 4.12: Forecast for Regional Aircraft Market ($B) (2020-2025)
Figure 4.13: Trends and Forecast for the Regional Aircraft Market ($B)
Figure 4.14 Trends and Forecast for Delivery in the Regional Aircraft Market

CHAPTER 5. GENERAL AVIATION MARKET ANALYSIS

Figure 5.1: Classification of the General Aviation Aircraft Market
Figure 5.2: General Aviation Delivery by Body Type (2019)
Figure 5.3: General Aviation Delivery by Engine Type (2019)
Figure 5.4: General Aviation Delivery by Engine Type (2014)
Figure 5.5: General Aviation Delivery by Engine Type (2019)
Figure 5.6 Trends of General Aviation Aircraft Delivery (2014-2019)
Figure 5.7: Trends of the General Aviation Market ($B) (2014-2019)
Figure 5.8: Gulfstream Product Classification and New Product by Entry into Service (Source: General Dynamics)
Figure 5.9: Forecast for the General Aviation Market ($B) (2020-2025)
Figure 5.10: Forecast for the General Aviation Aircraft Delivery (2020-2025)
Figure 5.11: Trends and Forecast for Delivery in the General Aviation Market
Figure 5.12: Trends and Forecast for the General Aviation Market ($B)

CHAPTER 6. HELICOPTER MARKET ANALYSIS

Figure 6.1: Classification of the Helicopter Market
Figure 6.2: Helicopter Delivery by Application (2019)
Figure 6.3: Helicopter Market by Application (2019)
Figure 6.4: Helicopter Delivery by Manufacturer (2019)
Figure 6.5: Helicopter Delivery by Civil Helicopter Manufacturer (2019)
Figure 6.6: Helicopter Delivery by Military Helicopter Manufacturer (2019)
Figure 6.7: Helicopter Delivery by Application in 2014
Figure 6.8: Helicopter Delivery by Application in 2019
Figure 6.9: Trends of Helicopter Delivery (2013-2018)
Figure 6.10: Trends of Helicopter Market ($B) (2014-2019)
Figure 6.11: Forecast for the Helicopter Market (2020-2025)
Figure 6.12: Forecast for the Helicopter Market ($B) (2020-2025)
Figure 6.13 Trends and Forecast for the Helicopter Market ($B)
Figure 6.14: Trends and Forecast for Delivery 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 (2019)
Figure 7.3: Trends of the Military Aircraft Market ($B) (2014-2019)
Figure 7.4: Forecast for Military Aircraft Delivery (2020-2025)
Figure 7.5: Forecast for the Military Aircraft Market ($B) (2020-2025)
Figure 7.6: Trends and Forecast for the Military Aircraft Market
Figure 7.7: Trends and Forecast for the Military Aircraft Market ($B)

CHAPTER 8. MANUFACTURING PROCESS ANALYSIS

Figure 8.1: Composite Distribution in the Global Aerospace Market (M lbs.) by Manufacturing Process (2019)

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 of Airbus A321 and Boeing
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 MATERIAL MARKET ANALYSIS

Figure 11.1: Total Material Distribution in the Global Aerospace Market (M lbs.) by Aircraft Type (2019)
Figure 11.2: Total Fly Material Distribution in the Global Aerospace Market (M lbs.) by Aircraft Type (2019)
Figure 11.3: Total Buy Material Distribution (M lbs.) by Aircraft Type (2019)
Figure 11.4: Material Distribution in Various Wide-Body Aircraft
Figure 11.5: Percentage Distribution of Materials in Airbus A340 for Buy Weight
Figure 11.6: Percentage Distribution of Materials in Airbus A340 for Fly Weight
Figure 11.7: Material Distribution in Airbus A340 for Fly Weight
Figure 11.8: Composite Shipments (M lbs.) by Reinforcement Type in the Global Aerospace Market (2019)
Figure 11.9: Composite Material Shipments in the Global Aerospace Market ($M) by Aircraft Type (2019)
Figure 11.10: Composite Material Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type (2019)
Figure 11.11: Composite Material Shipments (M lbs.) in the Commercial Aircraft Market for New and Aftermarket (2019)
Figure 11.12: Trends of Composite Shipments (M lbs.) in the Narrow-Body Commercial Aircraft Market (2014-2019)
Figure 11.13: Trends of Composite Shipments (M lbs.) in the Wide-Body Commercial Aircraft Market (2014-2019)
Figure 11.14: Composite Material Shipments (M lbs.) in Regional Aircraft for New and Aftermarket (2019)
Figure 11.15: Composite Material Shipments (M lbs.) by Engine Type in the Regional Aircraft Market (2019)
Figure 11.16: Composite Material Shipments by Reinforcement Type in Regional Aircraft (M lbs) (2019)
Figure 11.17: Composite Material Shipments (M lbs.) in General Aviation for New and Aftermarket Aircraft (2019)
Figure 11.18: Composite Material Shipments by Reinforcement Type in the General Aviation Market (M lbs.) (2019)
Figure 11.19: Distribution of Composite Materials in the Gulfstream G-550 by Application
Figure 11.20: Material Distribution of Composites in Amphibian by Application
Figure 11.21: Material Distribution of Composites in Citation-X by Application
Figure 11.22: Composite Material Shipments (M lbs.) in Helicopters for New and Aftermarket (2019)
Figure 11.23: Composite Material Shipments by Type of Helicopter (2019)
Figure 11.24: Distribution of Composite Materials in the Civil Helicopter S-92 Helibus by Application
Figure 11.25: Distribution of Composite Materials in Apache Military Helicopters by Application
Figure 11.26: Composite Material Shipments (M lbs.) in Military Aircraft for New and Aftermarket (2019)
Figure 11.27: Distribution of Composite Materials for F/A-18 E/F by Application
Figure 11.28: Composite Shipments for C-130J by Application
Figure 11.29: Composite Material Distribution for Hawk by Application

CHAPTER 12. COMPOSITE MATERIALS IN THE AEROSPACE MARKET BY REGION

Figure 12.1: Composite Distribution (M lbs.) in the Global Aerospace Market by Region (2019)
Figure 12.2 Composite Distribution in the Global Aerospace Market ($M) by Region (2019)

CHAPTER 13. TRENDS FOR COMPOSITES IN THE GLOBAL AEROSPACE MARKET

Figure 13.1: Composite Material Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type (2014)
Figure 13.2: Composite Material Shipments in the Global Aerospace Market ($M) by Aircraft Type (2014)
Figure 13.3: Composite Material Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type (2019)
Figure 13.4: Composite Material Shipments in the Global Aerospace Market ($M) by Aircraft Type (2019)
Figure 13.5: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type (2014-2019)
Figure 13.6: Trends of Composite Shipments in the Global Aerospace Market ($M) by Aircraft Type (2014-2019)
Figure 13.7: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Component Type (2014-2019)
Figure 13.8: Composite Shipments by Reinforcement Type in 2014 and 2019
Figure 13.9: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Structure Type (2014-2019)
Figure 13.10: Trends of Composite Shipments in the Global Aerospace Market ($M) by Structure Type (2014-2019)
Figure 13.11: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Region (2014-2019)
Figure 13.12: Growth Trends of Composites (M lbs.) by Region (2014-2019)
Figure 13.13: Composite Distribution in the Global Aerospace Market (M lbs.) by Region (2014)
Figure 13.14: Composite Distribution in the Global Aerospace Market ($M) by Region (2014)
Figure 13.15: Composite Distribution in the Global Aerospace Market (M lbs.) by Region (2019)
Figure 13.16: Composite Distribution in the Global Aerospace Market ($M) by Region (2019)
Figure 13.17: Composite Distribution in the Global Aerospace Market (M lbs.) by Manufacturing Process (2014)
Figure 13.18: Composite Distribution in the Global Aerospace Market (M lbs.) by Manufacturing Process (2019)
Figure 13.19: Manufacturing Processes in the Global Aerospace Market (2014-2019)

CHAPTER 14. FORECAST FOR COMPOSITES IN THE GLOBAL AEROSPACE MARKET

Figure 14.1: Total Composite Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type
Figure 14.2: Total Composite Shipments ($M) in the Global Aerospace Market by Aircraft Type
Figure 14.3: Forecast for Composite Shipments in the Global Aerospace Market (M lbs.) by Aircraft Type (2020-2025)
Figure 14.4: Forecast for Composite Shipments in the Global Aerospace Market ($M) by Aircraft Type (2020-2025)
Figure 14.5: Average Composite Shipments (M lbs.) in the Commercial Aircraft Market
Figure 14.6: Average Composite Shipments in the Commercial Aircraft Market ($M)
Figure 14.7: Total Composite Shipments in the Commercial Aircraft Market (M lbs.) by Body Type
Figure 14.8: Total Composite Shipments in the Commercial Aircraft Market ($M) by Body Type
Figure 14.9: Total Composite Shipments in the Commercial Aircraft Market (M lbs.) by OEM
Figure 14.10: Total Composite Shipments in Wide-Body Aircraft and All Others in the Global Aerospace Market (M lbs)
Figure 14.11: Forecast for Composite Shipments in the Global Aerospace Market (M lbs) by Component Type (2020-2025)
Figure 14.12: Total Composite Shipments in the Regional Aircraft Market (M lbs.)
Figure 14.13: Total Composite Shipments in the Regional Aircraft Market ($M)
Figure 14.14: Total Composite Shipments in the General Aviation Market (M lbs.)
Figure 14.15: Total Composite Shipments in the General Aviation Market ($M)
Figure 14.16: Total Composite Shipments in the Helicopter Market (M lbs.)
Figure 14.17: Total Composite Shipments in the Helicopter Market ($M)
Figure 14.18: Total Composite Shipments in the Military Aircraft Market (M lbs.)
Figure 14.19: Total Composite Shipments in the Military Aircraft Market ($M)
Figure 14.20: Forecast for Composite Shipments in the Global Aerospace Market (M lbs.) by Type of Structure (2020-2025)
Figure 14.21: Forecast for Composite Shipments ($M) in the Global Aerospace Market by Type of Structure (2020-2025)
Figure 14.22: Forecast for Composite Shipments in the Global Aerospace Market (M lbs.) by Region (2020-2025)
Figure 14.23 Growth Forecast for Composites (M lbs.) by Region (2020-2025)
Figure 14.24: Composite Distribution in the Global Aerospace Market (M lbs.) by Region (2025)
Figure 14.25: Composite Distribution in the Global Aerospace Market ($M) by Region (2025)
Figure 14.26: Composite Shipments for the Global Aerospace Market (M lbs.) by Manufacturing Process (2025)
Figure 14.27: Manufacturing Processes in the Global Aerospace Market (M lbs.) (2020-2025)

CHAPTER 15. COMPANY PROFILES OF LEADING PLAYERS

Figure 15.1: Major Plant Locations of Hexcel Corporation
Figure 15.2: Major Plant Locations of Toray Industries Inc.
Figure 15.3: Major Plant Location of Teijin Limited
Figure 15.4: Major Plant Locations of Cytec Solvay Group
Figure 15.5: Major Plant Locations of Zodiac Aerospace
Figure 15.6: Major Plant Locations of Spirit Aerospace Inc.
Figure 15.7: Major Plant Locations of Elbit Systems-Cyclone

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: IMF)
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 Global Aerospace Market by Industry Sector (2014-2019)
Table 2.5: Trends in the Global Aerospace Market by Unit Delivered (2014-2019)
Table 2.6: Forecast for Various Aircraft in Terms of New Aircraft Delivered and Revenue Earned (2020-2029) and (2020-2039)

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 2019 Outlook for Commercial Aerospace Market
Table 3.4: Long-Term Outlook for Commercial Aerospace Market
Table 3.5: Forecast for Various Aircraft (2020-2029) and (2020-2039) 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 2019
Table 4.2: Short-Term 2019 Outlook for Regional Aerospace Market
Table 4.3: Long-Term Outlook for the Regional Aerospace Market
Table 4.4: Forecast for Regional Aircraft (2020-2029) and (2020-2039) 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 General Aviation Shipments by Type in 2019
Table 5.3: Specifications of Single-Engine Aircraft Cessna-Skyhawk
Table 5.4: Specifications of Multi-Engine Aircraft Baron 58 - Raytheon
Table 5.5: Specifications of Turboprop Aircraft Cessna-Caravan
Table 5.6: Specifications of Business Jet Aircraft Cessna- Citation X
Table 5.7: Major New General Aviation Entry by Year (2013-2015)
Table 5.8: Forecast for General Aviation in Terms of New Aircraft Delivered and Revenue Generated (2020-2029) and (2020-2039)

CHAPTER 6. HELICOPTER MARKET ANALYSIS

Table 6.1: Classification of the Helicopter Market by Engine Type
Table 6.2: Forecast for Helicopter (2020-2029) and (2020-2039) in Terms of New Aircraft Delivered and Revenue Generated

CHAPTER 7. MILITARY AIRCRAFT MARKET ANALYSIS

Table 7.1: Forecast for Military Aircraft Market (2020-2029) and (2020-2039) 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 MATERIAL MARKET ANALYSIS

Table 11.1: Key Requirements of Airlines
Table 11.2: Key Requirements of Aircraft Manufacturers
Table 11.3: Total Material Consumption (Buy Weight of All Materials) in Various Market Segments in 2019
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 Composite Usage in General Aviation
Table 11.9: Summary of Composite Usage in Helicopters
Table 11.10: Composite Percentage for Some Military Aircraft
Table 11.11: Summary of Composite Material Usage in Military Aircraft Production
Table 11.12: Composite Materials by Application in F/A-18 E/F

CHAPTER 13. TRENDS FOR COMPOSITES IN THE GLOBAL AEROSPACE MARKET

Table 13.1: Trends of Composite Shipments in Various Aircraft Types by Volume and Value (2014-2019)
Table 13.2: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Component Type (2014-2019)
Table 13.3: Trends of Composite Shipments in the Global Aerospace Market (M lbs.) by Reinforcement Type (2014-2019)

CHAPTER 14. REGIONAL AIRCRAFT MARKET ANALYSIS

Table 14.1: Forecast for Composite Shipments in the Global Aerospace Market (M lbs) by Component Type (2020-2025)
Table 14.2: Forecast for Composite Shipments in the Global Aerospace Market (M lbs.) by Reinforcement Type (2020-2025)


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