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

  • ID: 4772901
  • Report
  • February 2019
  • Region: Global
  • 199 Pages
  • Lucintel

FEATURED COMPANIES

  • BASF SE
  • Gurit Holding AG
  • Hexcel Corporation
  • Royal Ten Cate BV
  • SGL Group (SGL Carbon)
  • Solvay S.A.

Trends, opportunities and forecast for composites in the global aerospace interior market to 2023 by aircraft type (commercial aircraft, regional aircraft, general aviation, helicopter, and military aircraft), by application (interior panels, seating, galley, stowage bin, lavatory and others), by market type (OEM, and aftermarket), by manufacturing process (prepreg layup, RTM and Others), By fiber type (glass fiber, carbon fiber and others), By resin type (phenolic, epoxy and others)

The future of composites in the global aerospace interior market looks promising with opportunities in the commercial aircraft, regional aircraft, general aviation, helicopter, and military aircraft. Composite in the global aerospace interior market is expected to reach an estimated $468 million by 2023 with a CAGR of 4.7% from 2018 to 2023. The major growth drivers for this market are increasing deliveries of aircraft and the demand for lightweight materials.
  Emerging trends, which has a direct impact on the dynamics of composites in the global aerospace interior industry, includes introduction of composites for aircraft window frames and development of thermoplastic composite application in aircraft interiors.    A total of 117 figures/charts and 93 tables are provided in this 199 -page report to help in your business decisions.   The study includes the market size for composites in the global aerospace interior market and forecast for composites in the global aerospace interior market through 2023, segmented by aircraft type, application, market type, manufacturing process, fiber type, resin type and region as follows:

Composites in the Global Aerospace Interior Market by Aircraft Type [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • Commercial Aircraft
  • Regional Aircraft
  • General Aviation
  • Helicopter
  • Military Aircraft
Composites in the Global Aerospace Interior Market by Application Type [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • Interior Panels
  • Seating
  • Galley
  • Stowage Bin
  • Lavatory
  • Others
Composites in the Global Aerospace Interior Market by Market Type [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • OEM
  • Aftermarket
Composites in the Global Aerospace Interior Market by Manufacturing Process [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • Prepreg Layup
  • RTM
  • Others
Composites in the Global Aerospace Interior Market by Fiber Type [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • Glass Fiber
  • Carbon Fiber
  • Others
Composites in the Global Aerospace Interior Market by Resin Type [Value ($M) and Volume (M lbs) from 2012 to 2023]:
  • Phenolic
  • Epoxy
  • Others
Composites in the Global Aerospace Interior Market by Region [Value ($M) from 2012 to 2023]:
  • North America
  • Europe
  • Asia Pacific
  • The Rest of the World
Some of the composites companies in the global aerospace interior market include Hexcel, Gurit, Toray, Teijin, and SGL are among the major providers of composites in the global aerospace interior market.

On the basis of its comprehensive research, the analyst forecasts that the interior panels will remain the largest application over the forecast period. The major parts fabricated from composites include floor panels, ceiling panels, sidewalls and partition walls. Increased focus on weight reduction and fuel efficiency by aircraft manufacturers has augmented the use of composites in aircraft interior.

By fiber type, glass fiber composite is expected to remain the largest segment over the forecast period. Carbon fiber composites is expected to witness the highest growth due to an increase in new aircraft applications, such as window frames and seat components and increasing penetration of carbon fiber composites in aircraft interior components.

North America is expected to remain the largest region and witness the highest growth over the forecast period due to a significant increase in aircraft deliveries and increasing demand for lightweight materials.

Some of the features of “Composites in the Global Aerospace Interior Market Report: Trends, Forecast and Competitive Analysis” include:
  • Market size estimates: Composites in the global aerospace interior market size estimation in terms of value ($M) and volume (M Lbs.) shipment.
  • Trend and forecast analysis: Market trend (2012-2017) and forecast (2018-2023) by application, and end use industry.
  • Segmentation analysis: Composites in the global aerospace interior market size by various applications such as aircraft, application, market type, manufacturing process, fiber, and resin in terms of value and volume shipment.
  • Regional analysis: Composites in the global aerospace interior 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 interior market.
  • Strategic analysis: This includes M&A, new product development, and competitive landscape of composites in the global aerospace interior market.
  • Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
This report answers the following 10 key questions:

Q.1 What are some of the most promising, high-growth opportunities for composites in the global aerospace interior market by aircraft type (commercial aircraft, regional aircraft, general aviation, helicopter, and military aircraft), by application (interior panels, seating, galley, stowage bin, lavatory and others), by market type (OEM, and aftermarket), by manufacturing process (prepreg layup, RTM and Others), By fiber type (glass fiber, carbon fiber and others), By resin type (phenolic, epoxy and others) and by region (North America, Europe, Asia Pacific, and the Rest of the World)?
Q.2 Which 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 for composites in the global aerospace interior market?
Q.5 What are the business risks and threats for composites in the global aerospace interior market?
Q.6 What are emerging trends for composites in the global aerospace interior market and reasons behind them?
Q.7 What are some of the changing demands of customers for composites in the global aerospace interior market?
Q.8 Who are the major players for composites in the global aerospace interior market? What strategic initiatives are being implemented by key players for business growth?
Q.9 What M&A activity has occurred in the last 5 years for composites in the global aerospace interior market?






























































































































































































































































































































































































































































































































































































































































 

Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • BASF SE
  • Gurit Holding AG
  • Hexcel Corporation
  • Royal Ten Cate BV
  • SGL Group (SGL Carbon)
  • Solvay S.A.
1. Executive Summary
  2. Market Background and Classifications 2.1: Introduction, Background, and Classifications 2.2: Supply Chain 2.3: Industry Drivers and Challenges   3. Market Trend and Forecast Analysis from 2012 to 2023 3.1: Macroeconomic Trends and Forecast 3.2: Composites in the Global Aerospace Interior Market Trends and Forecast 3.3: Composites in the Global Aerospace Interior Market by Aircraft Type 3.3.1: Commercial Aircraft 3.3.2: Regional Aircraft 3.3.3: General Aviation 3.3.4: Helicopter 3.3.5: Military Aircraft 3.4: Composites in the Global Aerospace Interior Market by Application 3.4.1: Interior Panels (Flooring, Ceiling, Sidewalls, Partition walls 3.4.2: Seating 3.4.3: Galley 3.4.4: Stowage Bins 3.4.5: Lavatory 3.4.6: Other (Ducting, Window frame) 3.5: Composites in the Global Aerospace Interior Market by Market Type 3.5.1: OEM 3.5.2: Aftermarket 3.6: Composites in the Global Aerospace Interior Market by Manufacturing Process 3.6.1: Prepreg Layup 3.6.2: RTM 3.6.3: Others (Compression Molding and Press Method) 3.7:  Composites in the Global Aerospace Interior Market by Fiber Type 3.7.1: Glass Fiber 3.7.2: Carbon Fiber 3.7.3: Others 3.8: Composites in the Global Aerospace Interior Market by Resin Type 3.8.1: Phenolics 3.8.2: Epoxy 3.8.3: Others   4. Market Trends and Forecast Analysis by Region 4.1: Composites in the Global Aerospace Interior Market by Region 4.2: Composites in the North American Aerospace Interior Market 4.2.1: Composites in the US Aerospace Interior Market 4.2.2: Composites in the Canadian Aerospace Interior Market 4.3: Composites in the European Aerospace Interior Market 4.3.1: Composites in the French Aerospace Interior Market 4.4: Composites in the APAC Aerospace Interior Market 4.4.1: Composites in the Japanese Aerospace Interior Market 4.5: Composites in the ROW Aerospace Interior Market   5. Competitor Analysis 5.1: Product Portfolio Analysis 5.2: Operational Integration 5.3: Geographical Reach 5.4: Porter’s Five Forces Analysis   6. Growth Opportunities and Strategic Analysis 6.1: Growth Opportunity Analysis 6.1.1: Growth Opportunities for Composites in the Global Aerospace Interior Market by Aircraft Type 6.1.2: Growth Opportunities for Composites in the Global Aerospace Interior Market by Application 6.1.3: Growth Opportunities for Composites in the Global Aerospace Interior Market by Manufacturing Process Type 6.1.4: Growth Opportunities for Composites in the Global Aerospace Interior Market by Fiber Type 6.1.5: Growth Opportunities for Composites in the Global Aerospace Interior Market by Region 6.2: Emerging Trends for Composites in the Global Aerospace Interior Market 6.3: Strategic Analysis 6.3.1: Capacity Expansion for Composites in the Global Aerospace Interior Market 6.3.2: Mergers, Acquisitions, and Joint Ventures for Composites in the Global Aerospace Industry   7. Company Profiles of Leading Players 7.1: Royal Ten Cate BV 7.2: Hexcel Corporation 7.3: BASF SE 7.4: Solvay S.A. 7.5: Gurit Holding AG 7.6: SGL Group (SGL Carbon) 7.7: Toray Industries 7.8: Teijin Limited       List of Figures   Chapter 2. Market Background and Classifications Figure 2.1: Classification of Composite Materials on the Basis of Matrix Figure 2.2: Classification of Composite Materials on the Basis of Reinforcement Figure 2.3: Composition of Composites Figure 2.4: Evolution of Composite Applications in Commercial Aircraft Figure 2.5: Evolution of Composite Applications in Military Aircraft Figure 2.6: Evolution of Composite Applications in Rotorcraft Figure 2.7: Classification of Composites in Aircraft Interior Market Figure 2.8: An Overhead Stowage Compartment by Zodiac Aerospace (Source: RTI) Figure 2.9: A Composite Aircraft Seat CL3710 for the Economy Class by Recaro Figure 2.10: Composites Usage in the Floor, Sidewalls and Ceiling panels of an Aircraft Figure 2.11: Composites in Galleys Figure 2.12: Lavatories Replaced with Composites Figure 2.13: Composite Window Frames Figure 2.14: Supply Chain of Composites for Aircraft Interiors in the Aerospace Industry Figure 2.15: Major Drivers and Challenges for Composites in the Aircraft Interior Market   Chapter 3. Market Trend and Forecast Analysis from 2012 to 2023 Figure 3.1: Trends of the Global GDP Growth Rate (2012-2017) Figure 3.2: Air Passenger Traffic Growth Rate Trends (2012-2017) Source: IATA Figure 3.3: Trends of Aircraft Deliveries (2012-2017) Figure 3.4: Forecast for the Global GDP Growth Rate (2018-2023) Figure 3.5: Forecast for Aircraft Deliveries (2018-2023) Figure 3.6: Trends and Forecast for Composites in the Global Aerospace interior Market ($M) (2012-2023) Figure 3.7: Trends and Forecast for Composites in the Global Aerospace Interior Market (M lbs.)(2012-2023) Figure 3.8: Trends of Composites in the Global Aerospace Interior Market ($M) by Aircraft Type (2012-2017) Figure 3.9: Forecast for Composites in the Global Aerospace Interior Market ($M) by Aircraft Type (2018-2023) Figure 3.10: Trends of Composites in the Global Aerospace Interior Market (M lbs.) by Aircraft Type (2012-2017) Figure 3.11: Forecast for Composites in the Global Aerospace Interior Market (M lbs.) by Aircraft Type (2018-2023) Figure 3.12: Trends and Forecast for Composites in Commercial Aircraft in the Global Aerospace Interior Market (2012-2023) Figure 3.13: Trends and Forecast for Composites in Regional Aircraft in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.14: Trends and Forecast for Composites in Regional Aircraft in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.15: Trends and Forecast for Composites in General Aviation in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.16: Trends and Forecast for Composites in General Aviation in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.17: Trends and Forecast for Composites in Helicopter in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.18: Trends and Forecast for Composites in Helicopter in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.19: Trends and Forecast for Composites in Military Aircraft in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.20: Trends and Forecast for Composites in Military Aircraft in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.21: Trends of Composites in the Global Aerospace Interior Market ($M) by Application Type (2012-2017) Figure 3.22: Forecast for Composites in the Global Aerospace Interior Market ($M) by Application Type (2018-2023) Figure 3.23: Trends of Composites in the Global Aerospace Interior Market by Application (M lbs.) (2012-2017) Figure 3.24: Forecast for Composites in the Global Aerospace Interior Market (M lbs.) by Application Type (2018-2023) Figure 3.25: Trends and Forecast for Composites in Interior Panels in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.26: Trends and Forecast for Composites in Interior Panels in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.27: Trends and Forecast for Composites in Seating in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.28: Trends and Forecast for Composites in Seating in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.29: Trends and Forecast for Composites in Galleys in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.30: Trends and Forecast for Composites in Galleys in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.31: Trends and Forecast for Composites in Stowage Bins in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.32: Trends and Forecast for Composites in Stowage Bins in the Global Aerospace Interior Market ($M lbs.) (2012-2023) Figure 3.33: Trends and Forecast for Composites in Lavatories in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.34: Trends and Forecast for Composites in Lavatories in the Global Aerospace Interior Market (M lbs.)(2012-2023) Figure 3.35: Trends and Forecast for Composites in Other Applications in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.36: Trends and Forecast for Composites in Other Applications in the Global Aerospace Interior Market (M lbs.)(2012-2023) Figure 3.37: Trends of Composite in the Global Aerospace Interior Market ($M) by Market Type (2012-2017) Figure 3.38: Forecast for Composites in the Global Aerospace Interior Market ($M) by Market Type (2018-2023) Figure 3.39: Trends of Composites in the Global Aerospace Interior Market (M lbs.) by Market Type (2012-2017) Figure 3.40: Forecast for Composites in the Global Aerospace Interior Market (M lbs.) by Market Type (2018-2023) Figure 3.41: Trends and Forecast for OEM Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.42: Trends and Forecast for OME Composites in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.43: Trends and Forecast for Aftermarket Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.44: Trends and Forecast for Aftermarket Composites in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.45: Trends of Composites in the Global Aerospace Interior Market ($M) by Manufacturing Process (2012-2017) Figure 3.46: Forecast for Composites in the Global Aerospace Interior Market ($M) by Manufacturing Process (2018-2023) Figure 3.47: Trends of Composites in the Global Aerospace Interior Market (M lbs.) by Manufacturing Process (2012-2017) Figure 3.48: Forecast for Composites in the Global Aerospace Interior Market (M lbs.) by Manufacturing Process (2018-2023) Figure 3.49: Trends and Forecast for Prepreg Layup Process of Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.50: Trends and Forecast for Prepreg Layup Process of Composites in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.51: Trends and Forecast for RTM Manufacturing Process of Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.52: Trends and Forecast for RTM Manufacturing Process of Composites in the Global Aerospace Interior Market (M lbs.)(2012-2023) Figure 3.53: Trends and Forecast for Other Manufacturing Processes of Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.54: Trends and Forecast for Other Manufacturing Processes of Composites in the Global Aerospace Interior Market (M lbs.) (2012-2023) Figure 3.55: Trends of Composites in the Global Aerospace Interior Market ($M) by Fiber Type (2012-2017) Figure 3.56: Forecast for Composites in the Global Aerospace Interior Market ($M) by Fiber Type (2018-2023) Figure 3.57: Trends of Composites in the Global Aerospace Interior Market (M lbs) by Fiber Type (2012-2017) Figure 3.58: Forecast for Composites in the Global Aerospace Interior Market (M lbs) by Fiber Type (2018-2023) Figure 3.59: Trends and Forecast for Glass Fiber Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.60: Trends and Forecast for Glass Fiber Composites in the Global Aerospace Interior Market (M lbs) (2012-2023) Figure 3.61: Trends and Forecast for Carbon Fiber Composites in the Global Aerospace Interior Market ($M)(2012-2023) Figure 3.62: Trends and Forecast for Carbon Fiber Composites in the Global Aerospace Interior Market (M lbs)(2012-2023) Figure 3.63: Trends and Forecast for Other Fiber Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.64: Trends and Forecast for Other Fiber Composites in the Global Aerospace Interior Market (M lbs) (2012-2023) Figure 3.65: Trends of Composites in the Global Aerospace Interior Market ($M) by Resin Type (2012-2017) Figure 3.66: Forecast for Composites in the Global Aerospace Interior Market(M lbs) by Resin Type (2018-2023) Figure 3.67: Trends of Composites in the Global Aerospace Interior Market (M lbs) by Resin Type (2012-2017) Figure 3.68: Forecast for Composites in the Global Aerospace Interior Market (M lbs) by Resin Type (2018-2023) Figure 3.69: Trends and Forecast for Phenolic Resin in Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.70: Trends and Forecast for Phenolic Resin in Composites in the Global Aerospace Interior Market (M lbs) (2012-2023) Figure 3.71: Trends and Forecast for Epoxy Resin Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.72: Trends and Forecast for Epoxy Resin Composites in the Global Aerospace Interior Market (M lbs) (2012-2023) Figure 3.73: Trends and Forecast for Other Resin Composites in the Global Aerospace Interior Market ($M) (2012-2023) Figure 3.74: Trends and Forecast for Other Resin Composites in the Global Aerospace Interior Market (M lbs) (2012-2023)   Chapter 4. Market Trends and Forecast Analysis by Region Figure 4.1: Trends of Composites in the Global Aerospace Interior Market ($M) by Region (2012-2017) Figure 4.2: Forecast for Composites in the Global Aerospace Interior Market ($M) by Region (2018-2023) Figure 4.3: Trends and Forecast for Composites in the North American Aerospace Interior Market ($M) (2012-2023) Figure 4.4: Trends and Forecast for Composites in the Aerospace Interior Market of the United States (2012-2023) Figure 4.5: Trends and Forecast for Composites in the Canadian Aerospace Interior Market (2012-2023) Figure 4.6: Trends and Forecast for Composites in the European Aerospace Interior Market  ($M) (2012-2023) Figure 4.7: Trends and Forecast for Composites in the French Aerospace Interior Market (2012-2023) Figure 4.8: Trends and Forecast for Composites in the APAC Aerospace Interior Market ($M) (2012-2023) Figure 4.9: Trends and Forecast for Composites in Japanese Aerospace Industry (2012-2023) Figure 4.10: Trends and Forecast for Composites in the ROW Aerospace Interior Market ($M) (2012-2023)   Chapter 5. Competitor Analysis Figure 5.1: Locations of Major Global Composite Materials for Aerospace Interior Suppliers Figure 5.2: Porter’s Five Forces Analysis for Composites in the Global Aerospace Interior Market   Chapter 6. Growth Opportunities and Strategic Analysis Figure 6.1: Growth Opportunities for Composites in the Global Aerospace Interior Market by Aircraft Type Figure 6.2: Growth Opportunities for Composites in the Global Aerospace Interior Market by Application Figure 6.3: Growth Opportunities for Composites in the Global Aerospace Interior Market by Manufacturing Process Figure 6.4: Growth Opportunities for Composites in the Global Aerospace Interior Market by Fiber Type Figure 6.5: Growth Opportunities for Composites in the Global Aerospace Interior Market by Region Figure 6.6: Emerging Trends for Composites in the Global Aerospace Interior Market Figure 6.7: Strategic Initiatives by Major Competitors of Composites in the Global Aerospace Interior Market (2012-2017) Figure 6.8: Capacity Expansion of Major Players  (2012-2017)   Chapter 7. Company Profiles of Leading Players Figure 7.1: Major Plant Locations of  Royal TenCate  Figure 7.2: Major Plant Locations of Hexcel  Figure 7.3: Major Plant Locations of BASF  Figure 7.4: Major Plant Locations of Solvay S.A. Figure 7.5: Major Plant Location of Gurit  Figure 7.6: Major Plant Locations of SGL Group (SGL Carbon)  Figure 7.7: Major Plant Locations of Toray Figure 7.8: Major Plant Locations of Teijin Limited      List of Tables   Chapter 1. Executive Summary Table 1.1: Composites in the Global Aerospace Interior Market: Parameters and Attributes   Chapter 2. Market Background and Classifications Table 2.1: Features of Composites Table 2.2: Evolution of Composite Material Applications at Airbus Table 2.3: Application Areas of Composites in Aircraft Interiors Table 2.4: Composite Types and Details   Chapter 3. Market Trend and Forecast Analysis from 2012 to 2023 Table 3.1: Market Trends of the Composites in Global Aerospace Interior Market Table 3.2: Market Forecast for Composites in the Global Aerospace Interior Market Table 3.3: Market Size and CAGR of Composites in the Global Aerospace Interior Market by Aircraft Type (2012-2017) Table 3.4: Market Size and CAGR of Composites in the Global Aerospace Interior Market by Aircraft Types (2018-2023) Table 3.5: Market Size and CAGR of Composites in the Global Aerospace Interior Market by Various Aircraft Types (2012-2017) Table 3.6: Market Size and CAGR of Composites in the Global Aerospace Interior Market (M lbs) by Various Aircraft Types (2018-2023) Table 3.7: Market Trends of Composites in Commercial Aircraft for in the Global Aerospace Interior Market (2012-2017) Table 3.8: Market Forecast for Composites in Commercial Aircraft in the Global Aerospace Interior Market (2018-2023) Table 3.9: Market Trends of Composites for Regional Aircraft in the Global Aerospace Interior Market (2012-2017) Table 3.10: Market Forecast for Composites for Regional Aircraft in the Global Aerospace Interior Market (2018-2023) Table 3.11: Market Trends of Composites  in General Aviation in the Global Aerospace Interior Market (2012-2017) Table 3.12: Market Forecast for Composites in General Aviation in the Global Aerospace Interior Market (2018-2023) Table 3.13: Market Trends of Helicopters for Composites in the Global Aerospace Interior Market (2012-2017) Table 3.14: Market Forecast for Helicopters in Composites in the Global Aerospace Interior Market (2018-2023) Table 3.15: Market Trends of Composites in Military Aircraft in the Global Aerospace Interior Market (2012-2017) Table 3.16: Market Forecast for Composites for Military Aircraft in the Global Aerospace Interior Market (2018-2023) Table 3.17: Market Size and CAGR of Various Composite  Applications  in the Global Aerospace Interior Market by Value (2012-2017) Table 3.18: Market Size and CAGR of Composite Applications in the Global Aerospace Interior Market by Value (2018-2023) Table 3.19: Market Size and CAGR for Various Composite Applications in the Global Aerospace Interior Market by Value (2012-2017) Table 3.20: Market Size and CAGR of  Various Applications in the Global Aerospace Interior Market by Value (2018-2023) Table 3.21: Market Trends of Composites in Interior Panels in the Global Aerospace Interior Market (2012-2017) Table 3.22: Market Forecast for Composites in Interior Panels in the Global Aerospace Interior Market (2018-2023) Table 3.23: Market Trends of Composites in Seating in the Global Aerospace Interior Market (2012-2017) Table 3.24: Market Forecast for Composites in Seating in the Global Aerospace Interior Market (2018-2023) Table 3.25: Market Trends of Composites in Galley in the Global Aerospace Interior Market (2012-2017) Table 3.26: Market Forecast for Composites in Galley in the Global Aerospace Interior Market (2018-2023) Table 3.27: Market Trends of Composites in Stowage Bins in the Global Aerospace Interior Market (2012-2017) Table 3.28: Market Forecast for Composites in Stowage Bins in the Global Aerospace Interior Market (2018-2023) Table 3.29: Market Trends of Composites in Lavatory in the Global Aerospace Interior Market (2012-2017) Table 3.30: Market Forecast for Composites in Lavatory in the Global Aerospace Interior Market (2018-2023) Table 3.31: Market Trends of Composites in Other Application in the Global Aerospace Interior Market (2012-2017) Table 3.32: Market Forecast for Composites in Other Application in the Global  Aerospace Interior Market (2018-2023) Table 3.33: Market Trends of Composites in the Global Aerospace Interior Market ($M) by Market Type (2012-2017) Table 3.34: Market Forecast for Composites in the Global Aerospace Interior Market ($M) by Market Type (2018-2023) Table 3.35: Market Trends of Composites in  the Global Aerospace Interior Market      (M lbs) by Market Type(2012-2017) Table 3.36: Market Forecast for Composites in the Global Aerospace Interior Market ($M) by Market Type (2018-2023) Table 3.37: Market Trends of OEM Composites in the Global Aerospace Interior Market (2012-2017) Table 3.38: Market Forecast for OEM Composites in the Global Aerospace Interior Market (2018-2023) Table 3.39: Market Trends of Aftermarket Composites in the Global Aerospace Interior Market (2012-2017) Table 3.40: Market Forecast for Aftermarket Composites in the Global Aerospace Interior Market (2018-2023) Table 3.41: Market Size and CAGR of Various Manufacturing Processes for Composites in the Global Aerospace Interior Market by Value (2012-2017) Table 3.42: Market Size and CAGR of Various Manufacturing Processes for Composites in the Global Aerospace Interior Market by Value (2018-2023) Table 3.43: Market Size and CAGR of Composites in the Global Aerospace Interior Market (M lbs) by Manufacturing Process (2012-2017) Table 3.44: Market Size and CAGR of  Composites in the Global Aerospace Interior Market (M lbs) by Manufacturing Process (2018-2023) Table 3.45: Market Trends of Prepreg Layup Process of Composites in the Global Aerospace Interior Market (2012-2017) Table 3.46: Market Forecast for Prepreg Layup Process of Composites in the Global Aerospace Interior Market (2018-2023) Table 3.47: Market Trends of RTM Manufacturing Process of Composites in the Global Aerospace Interior Market (2012-2017) Table 3.48: Market Forecast for RTM Manufacturing Process of Composites in the Global Aerospace Interior Market (2018-2023) Table 3.49: Market Trends of Other Manufacturing Processes of Composites in the Global Aerospace Interior Market (2012-2017) Table 3.50: Market Forecast for Other Manufacturing Processes in the Global Aerospace Interior Market (2018-2023) Table 3.51: Market Size and CAGR of Various Fiber Types Composites in the Global Aerospace Interior Market by Value (2012-2017) Table 3.52: Market Size and CAGR of Various Fiber Types Composites in the Global Aerospace Interior Market by Value (2018-2023) Table 3.53: Market Size and CAGR of Various Fiber Type Composites in the Global Aerospace Interior Market by Volume (2012-2017) Table 3.54: Market Size and CAGR of  Various Fiber Type Composites in the Global Aerospace Interior Market by Volume (2018-2023) Table 3.55: Market Trends of Glass Fiber Composites in the Global Aerospace Interior Market (2012-2017) Table 3.56: Market Forecast for Glass Fiber Composites in the Global Aerospace Interior Market (2018-2023) Table 3.57: Market Trends of Carbon Fiber Composites in the Global Aerospace Interior Market (2012-2017) Table 3.58: Market Forecast for Carbon Fiber Composites in the Global Aerospace Interior Market (2018-2023) Table 3.59: Market Trends of Other Fiber Composites in the Global Aerospace Interior  Market (2012-2017) Table 3.60: Market Forecast for Other Composites in the Global Aerospace Interior Market (2018-2023) Table 3.61: Market Size and CAGR of Various Resin Types in Composites in the Global Aerospace Interior Market by Value (2012-2017) Table 3.62: Market Size and CAGR of Various Resin Types in Composites in the Global Aerospace Interior Market by Value (2018-2023) Table 3.63: Market Size and CAGR of Various Resin Types in Composites in the Global Aerospace Interior Market by Value (2012-2017) Table 3.64: Market Size and CAGR of Various Resin Types in Composites in the Global Aerospace Interior Market by Value (2018-2023) Table 3.65: Market Trends of Phenolic Resin Composites in the Global Aerospace Interior Marke (M lbs) (2012-2017) Table 3.66: Market Forecast for Phenolic Resin in Composites in the Global Aerospace Interior Market (2018-2023) Table 3.67: Market Trends of Epoxy Resin Composites in the Global Aerospace Interior Market (M lbs) (2012-2017) Table 3.68: Market Forecast for Epoxy Resin Composites in the Global Aerospace Interior Market (2018-2023) Table 3.69: Market Trends of Other Resin Composites in the Global Aerospace Interior Market (2012-2017) Table 3.70: Market Forecast for Other Resin in Composites in the Global Aerospace Interior Market (2018-2023)   Chapter 4. Market Trends and Forecast Analysis by Region Table 4.1: Market Size and CAGR of Various Regions for Composites in the Global Aerospace Interior Market (2012-2017) Table 4.2: Market Size and CAGR of Various Regions for Composites in the Global Aerospace Interior Market (2018-2023) Table 4.3: Market Trends of Composites in the North American Aerospace Interior Market (2012-2017) Table 4.4: Market Forecast for Composites in the North American Aerospace Interior Market (2018-2023) Table 4.5: Trends and Forecast for Composites in the Aerospace Interior Market of the United States (2012-2023) Table 4.6: Trends and Forecast for Composites in the Canadian Aerospace Interior Market (2012-2023) Table 4.7: Market Trends of Composites in the European Aerospace Interior Market (2012-2017) Table 4.8: Market Forecast for Composites in the European Aerospace Interior Market (2018-2023) Table 4.9: Trends and Forecast for Composites in French Aerospace Interior Market (2012-2023) Table 4.10: Market Trends of Composites in the APAC Aerospace Interior Market (2012-2017) Table 4.11: Market Forecast for Composites in the APAC Aerospace Interior Market (2018-2023) Table 4.12: Trends and Forecast for Composites in the Japanese Aerospace Interior Market (2012-2023) Table 4.13: Market Trends of Composites in the ROW Aerospace Interior Market (2012-2017) Table 4.14: Market Forecast for Composites in the ROW Aerospace Interior Market (2018-2023)   Chapter 5. Competitor Analysis Table 5.1: Product Mapping of Composite Manufacturers Based on Aircraft Type Table 5.2: Product Mapping of Composite Manufacturers Based on Application Type Table 5.3: Product Mapping of Composite Manufacturers Based on Composite Fiber Type Table 5.4: Operational Integration of Composite Materials Manufacturers

*Full List of Tables and Figures Available on Enquiry.


Note: Product cover images may vary from those shown
  • BASF SE
  • Gurit Holding AG
  • Hexcel Corporation
  • Royal Ten Cate BV
  • SGL Group (SGL Carbon)
  • Solvay S.A.
  • Teijin Limited
  • Toray Industries
Note: Product cover images may vary from those shown

The analyst has been in the business of market research and management consulting since 2000 and has published over 600 market intelligence reports in various markets/applications and served over 1,000 clients worldwide. Each study is a culmination of four months of full-time effort performed by the analyst team. The analysts used the following sources for the creation and completion of this valuable report:

  • In-depth interviews of the major players in the market
  • Detailed secondary research from competitors’ financial statements and published data
  • Extensive searches of published works, market, and database information pertaining to industry news, company press releases, and customer intentions
  • A compilation of the experiences, judgments, and insights of professionals, who have analyzed and tracked the market over the years.

Extensive research and interviews are conducted in the supply chain of the market to estimate market share, market size, trends, drivers, challenges and forecasts.

Thus, the analyst compiles vast amounts of data from numerous sources, validates the integrity of that data, and performs a comprehensive analysis. The analyst then organizes the data, its findings, and insights into a concise report designed to support the strategic decision-making process.

 

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