Asia Pacific Aerospace Composites Market Report

Asia Pacific Aerospace Composites Market by Fiber Type, by Matrix Type, by Application, by Manufacturing Process, by Aircraft Type, Region, Trends, Competitive Analysis, and Growth Opportunities, Key Insights.
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Executive Summary

Asia-Pacific Aerospace Composites Market from Consainsights analyses the Asia-Pacific Aerospace Composites Market in the Chemicals & Materials industry over the forecast period to 2026.

Asia-Pacific Aerospace Composites research report from Consainsights outlines the detailed strategic analysis, trends, market opportunities, growth prospects, industry and market challenges and sustainable solutions to sustain in the competitive environment.

Asia-Pacific Aerospace Composites segmentation includes Fiber Type, Matrix Type, Application, Manufacturing Process, Aircraft Type and Geography.

Market analysis on the basis of Fiber Type include Carbon Fiber Composites, Ceramic Fiber Composites, Glass Fiber Composites, Others. This segmentation encompasses the key innovations and micro & macro trends, companies/manufacturers operating in this space along with their usage and penetration with respect to the wide range of End Users. Additionally, market sizing information along with the key factors such as market drivers, restraints, opportunities and challenges which are likely to be influencing the market growth are outlined in this report.

Based on the Matrix Type, the Asia-Pacific Aerospace Composites Market analysis covers Polymer Matrix Composites, Ceramic Matrix Composites, Metal Matrix Composites.

Based on the Application, the Asia-Pacific Aerospace Composites Market analysis covers Interior, Exterior.

Based on the Manufacturing Process, the Asia-Pacific Aerospace Composites Market analysis covers Afp/Atl, Lay-Up, Resin Transfer Molding, Filament Winding, Other Processes.

Based on the Aircraft Type, the Asia-Pacific Aerospace Composites Market analysis covers Commercial Aircraft, Business & General Aviation, Civil Helicopter, Military Aircraft, Others.

Key companies operating in the market include Solvay, Toray Industries, Inc., Mitsubishi Chemical Holdings, Hexcel Corporation, Teijin Limited, SGL Group, Materion Corporation and so on. This report covers the detailed analysis of the company profiles such as business segments, product portfolio, key brand insights and growth strategies adopted, company SWOT and Strategy analysis along with the financial analysis and analyst insights on the key companies operating in this market.

Moreover, the competitive analysis includes the companies deals such as Mergers, Acquisitions, Partnerships and so on along with the expansion areas focusing on the additional geographies, future insights for success and market share analysis. Major players strategies include the launch of the innovative product lines along with the emphasis on the partnerships and acquisitions to standardize their market share in the market space.

Market Research methodology includes the triangulation of the data from the data sources such as Primary Market Research approach and Secondary Market Research Approach along with the data from the trade bodies and industry standard publications and data sources. Primary inputs from the industry experts and the market respondents from the respective industries to obtain very critical information to assess the future growth prospects of the market. The final data is triangulated and thoroughly validated considering all the data sources using the bottom-up and the top-down approaches to estimate the market sizing of the individual segments.

Report Metric

Details

Market size available for years

2017-2026

Base year considered

2020

Forecast period

2021-2026

Forecast units

Value (USD Billion)

Segments covered

Fiber Type, Matrix Type, Application, Manufacturing Process, Aircraft Type

Countries covered

China, Japan, India, Southeast Asia, Australia & New Zealand, Rest of Asia-Pacific

Companies Covered

Solvay, Toray Industries, Inc., Mitsubishi Chemical Holdings, Hexcel Corporation, Teijin Limited, SGL Group, Materion Corporation, Owens Corning, Spirit Aerosystems, Lee Aerospace, Other Companies

The Asia-Pacific Aerospace Composites Market is segmented into the following categories:

Asia-Pacific Aerospace Composites Market by Fiber Type:

  • Carbon Fiber Composites

  • Others

Asia-Pacific Aerospace Composites Market by Matrix Type:

  • Ceramic Matrix Composites

  • Metal Matrix Composites

Asia-Pacific Aerospace Composites Market by Application:

    Asia-Pacific Aerospace Composites Market by Manufacturing Process:

    • Afp/Atl

    • Lay-Up

    • Resin Transfer Molding

    • Filament Winding

    • Other Processes

    Asia-Pacific Aerospace Composites Market by Aircraft Type:

    • Civil Helicopter

    • Military Aircraft

    Table of Contents

    1. Executive Summary

    2. Asia-Pacific Aerospace Composites Market Overview

      1. Asia-Pacific Aerospace Composites Market Definition & Scope
      2. Currency, Year and Forecasts Overview
      3. Asia-Pacific Aerospace Composites Market 360° Synopsis: Overview
    3. Asia-Pacific Aerospace Composites Industry Analysis

      1. Industry Value Chain Analysis
      2. Key Companies at each phase of Value Chain
      3. Industry Trend Analysis
    4. Asia-Pacific Aerospace Composites Market Analysis

      1. Drives, Restraints, Opportunities and Challenges Impact Analysis
      2. Porter’s Five Force Model Analysis
      3. PESTLE Analysis
      4. BPS Analysis
      5. Asia-Pacific Aerospace Composites Market Key Innovation & Trends
      6. Pricing Patterns (Company & Product Type)
    5. Asia-Pacific Aerospace Composites Market: Fiber Type

      1. Introduction
      2. Carbon Fiber Composites: Market Trends, Size, and Forecast (2017-2026)
      3. Ceramic Fiber Composites: Market Trends, Size, and Forecast (2017-2026)

        1. High Temperature Strength and Wear Resistance
      4. Glass Fiber Composites: Market Trends, Size, and Forecast (2017-2026)

        1. Properties Suitable for Reinforcing Aircraft Laminates
      5. Others: Market Trends, Size, and Forecast (2017-2026)
    6. Asia-Pacific Aerospace Composites Market: Matrix Type

      1. Introduction
      2. Polymer Matrix Composites: Market Trends, Size, and Forecast (2017-2026)

        1. Thermoset Polymer Matrix Composites
        2. Epoxy
        3. Phenolic
        4. Polyamide
        5. Others
        6. Thermoplastic Polymer Matrix Composites
        7. Peek
        8. Pei
      3. Ceramic Matrix Composites: Market Trends, Size, and Forecast (2017-2026)
      4. Metal Matrix Composites: Market Trends, Size, and Forecast (2017-2026)
    7. Asia-Pacific Aerospace Composites Market: Application

      1. Introduction
      2. Interior: Market Trends, Size, and Forecast (2017-2026)

        1. Seats
        2. Cabin
        3. Sandwich Panels
        4. Environmental Control System (Ecs) Ducting
      3. Exterior: Market Trends, Size, and Forecast (2017-2026)

        1. Fuselage
        2. Engine
        3. Wings
        4. Rotor Blades
        5. Tail Boom
    8. Asia-Pacific Aerospace Composites Market: Manufacturing Process

      1. Introduction
      2. Afp/Atl: Market Trends, Size, and Forecast (2017-2026)
      3. Lay-Up: Market Trends, Size, and Forecast (2017-2026)
      4. Resin Transfer Molding: Market Trends, Size, and Forecast (2017-2026)
      5. Filament Winding: Market Trends, Size, and Forecast (2017-2026)
      6. Other Processes: Market Trends, Size, and Forecast (2017-2026)
    9. Asia-Pacific Aerospace Composites Market: Aircraft Type

      1. Introduction
      2. Commercial Aircraft: Market Trends, Size, and Forecast (2017-2026)

        1. Single-Aisle Aircraft
        2. Wide Body Aircraft
        3. Regional Jets
      3. Business & General Aviation: Market Trends, Size, and Forecast (2017-2026)

        1. Business Jet
        2. Piston & Turboprop
      4. Civil Helicopter: Market Trends, Size, and Forecast (2017-2026)
      5. Military Aircraft: Market Trends, Size, and Forecast (2017-2026)
      6. Others: Market Trends, Size, and Forecast (2017-2026)

        1. Unmanned Aerial Vehicle (Uav)
        2. Spacecraft
    10. Asia-Pacific Aerospace Composites Market: Country

      1. Introduction
      2. China: Market Trends, Size, and Forecast (2017-2026)
      3. Japan: Market Trends, Size, and Forecast (2017-2026)
      4. India: Market Trends, Size, and Forecast (2017-2026)
      5. Southeast Asia: Market Trends, Size, and Forecast (2017-2026)
      6. Australia & New Zealand: Market Trends, Size, and Forecast (2017-2026)
      7. Rest of Asia-Pacific: Market Trends, Size, and Forecast (2017-2026)
    11. Asia-Pacific Aerospace Composites Market: Company Analysis

      1. Introduction
      2. Solvay

        1. Overview
        2. Business Portfolio
        3. Product Portfolio
        4. Key Brands Insights
        5. Company SWOT & Strategic Analysis
        6. Company Financials
        7. Analyst Insights
      3. Toray Industries, Inc.

      4. Mitsubishi Chemical Holdings

      5. Hexcel Corporation

      6. Teijin Limited

      7. SGL Group

      8. Materion Corporation

      9. Owens Corning

      10. Spirit Aerosystems

      11. Lee Aerospace

      12. Other Companies

    12. Asia-Pacific Aerospace Composites Market: Competitive Analysis

      1. Strategic Dashboard of Top Market Players
      2. Companies Deals (Mergers, Partnerships, Acquisitions, JVs)
      3. Expansion Areas (Based on Company Analysis)
      4. Market Share Analysis
    13. Asia-Pacific Aerospace Composites Market: Distribution Channel Analysis

      1. Distributor Type Analysis
      2. Major Distributors (Key Countries)
      3. Future Growth Prospects
    14. Industry & Analysts Insights for Success

    15. Research Methodology

    16. Appendix

      1. List of Tables
      2. List of Figures
      3. Available Customizations
      4. Related Reports

    List of Figures

    Figure 1: Asia-Pacific Aerospace Composites Market: Structure

    Figure 2: Asia-Pacific Aerospace Composites Market: Value Chain Analysis

    Figure 3: Asia-Pacific Aerospace Composites Market: Porter's Five Forces Model

    Figure 4: Asia-Pacific Aerospace Composites Market: Market Dynamics

    Figure 5: Asia-Pacific Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 6: Asia-Pacific Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 7: Asia-Pacific Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 8: Asia-Pacific Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 9: Asia-Pacific Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 10: China Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 11: China Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 12: China Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 13: China Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 14: China Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 15: Japan Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 16: Japan Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 17: Japan Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 18: Japan Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 19: Japan Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 20: India Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 21: India Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 22: India Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 23: India Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 24: India Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 25: Southeast Asia Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 26: Southeast Asia Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 27: Southeast Asia Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 28: Southeast Asia Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 29: Southeast Asia Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 30: Australia & New Zealand Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 31: Australia & New Zealand Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 32: Australia & New Zealand Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 33: Australia & New Zealand Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 34: Australia & New Zealand Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Figure 35: Rest of Asia-Pacific Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Figure 36: Rest of Asia-Pacific Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Figure 37: Rest of Asia-Pacific Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Figure 38: Rest of Asia-Pacific Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Figure 39: Rest of Asia-Pacific Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    List of Tables

    Table 1: Asia-Pacific Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 2: Asia-Pacific Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 3: Asia-Pacific Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 4: Asia-Pacific Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 5: Asia-Pacific Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 6: China Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 7: China Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 8: China Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 9: China Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 10: China Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 11: Japan Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 12: Japan Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 13: Japan Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 14: Japan Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 15: Japan Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 16: India Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 17: India Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 18: India Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 19: India Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 20: India Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 21: Southeast Asia Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 22: Southeast Asia Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 23: Southeast Asia Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 24: Southeast Asia Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 25: Southeast Asia Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 26: Australia & New Zealand Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 27: Australia & New Zealand Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 28: Australia & New Zealand Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 29: Australia & New Zealand Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 30: Australia & New Zealand Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Table 31: Rest of Asia-Pacific Aerospace Composites Market, By Fiber Type, 2017-2026 (USD Million)

    Table 32: Rest of Asia-Pacific Aerospace Composites Market, By Matrix Type, 2017-2026 (USD Million)

    Table 33: Rest of Asia-Pacific Aerospace Composites Market, By Application, 2017-2026 (USD Million)

    Table 34: Rest of Asia-Pacific Aerospace Composites Market, By Manufacturing Process, 2017-2026 (USD Million)

    Table 35: Rest of Asia-Pacific Aerospace Composites Market, By Aircraft Type, 2017-2026 (USD Million)

    Research Methodology

    Introduction

    This research study extensively involved secondary and primary data sources. Initially, all the important terms and processes related to the Asia Pacific Aerospace Composites market were identified. Then, each of these terms was clearly defined and relationships were established among them in the form of parent market, peer markets, and child markets. The entire value-chain was also studied to distinguish various solution and service providers that are operating in the global Asia Pacific Aerospace Composites market and how the services are being delivered or consumed in every phase of the value chain. The overall objective of this process was to identify the important segments of the Asia Pacific Aerospace Composites market that meet two important criteria– 1) their revenue is derivable using assumptions and expert opinions 2) their definitions are unique and non-overlapping.

    After defining the market segments, the supply side analysis was carried out where the individual players operating in various segments of the Asia Pacific Aerospace Composites market were identified and their revenues were analyzed to derive the segmental shares. The derived shares were also validated through an extensive demand side analysis. The below figure depicts different phases of the report production process.

    Phases of the report production process

    Secondary Research

    This research study was initiated with detailed study of information available in the public domain and paid databases. Various secondary sources that were referred during this study include company websites, product descriptions, whitepapers, survey papers, annual reports, investor presentations, press releases, blogs, news, journals, magazines; audit reports, articles published by associations, and paid databases, such as Factiva, D&B Hoovers, and Bloomberg BusinessWeek. The key objective behind secondary research was to obtain information regarding the market evolution, ecosystem, value-chain, total pool of solution and service providers, market segmentation, recent developments, upcoming opportunities and challenges, and various factors that are impacting the market. These data were further validated through primary research.

    Primary Research

    In primary research, various industry experts from both supply and demand side were interviewed to obtain critical information on competitive landscape, vendor shares, value-chain, pricing strategy, and adoption trends. The primary sources include industry experts, such as CXOs, Vice Presidents, Marketing Directors, Technology Directors, and Business Development Managers of companies that are operating in the global Asia Pacific Aerospace Composites market. Primary research was also conducted to validate the market segmentations, industry trends, market size, future prospects for market growth, and key strategies adopted by the major players to gain leading position in the market.

    Market Size Estimation And Forecasting

    This research study followed two approaches to estimate and forecast the size of global Asia Pacific Aerospace Composites market and its sub-segments– top-down and bottom-up approach. Important data those were used during this process include list of top players operating in the market, their share in the market, and total pool of solution and service providers. This entire process includes the study of annual and financial reports and extensive interview with industry experts across the value-chain. All important factors that are impacting the market were analyzed and verified through primary research. These data were consolidated and processed through an in-house developed market intelligence engine to derive the final quantitative data.

    Top-Down Approach

    The top-down approach was employed to derive the global Asia Pacific Aerospace Composites market size through vendor share analysis. More than 40 key players were analyzed and their total contribution in the global market size was found to be around 70%. Thus, remaining 30% was extrapolated to arrive at the global Asia Pacific Aerospace Composites market size. The regional and country level performance of these top players was also studied to derive the market share for different regions and countries.

    Phases of the report production process

    Bottom-Up Approach

    After the top-down approach, bottom-up approach was employed to derive the share and size for other market segments. Initially, the segmental shares were estimated at the country level. Then, the country- level market numbers were added to derive the regional sizes and finally, by adding the regional sizes, global sizes of all the market segments were calculated.

    Phases of the report production process

    List of Assumptions

    • Market Estimates and Forecasting: The market is estimated and forecasted in the realistic manner, instead of optimistic/aggressive way.
    • Currency: All the revenue-related market numbers are shown in globally accepted currency, USD.
    • Exchange Rates and Currency Conversion: For conversion of other currencies to USD, the average exchange rate for that particular year was used. OANDA website was used for all currency conversions in this market study.
    • Dollar Fluctuation: Dollar fluctuations are assumed to be moderate and will not affect the market forecasts during the forecast period.
    • Global Economic Conditions: The global economic conditions are assumed to be stable enabling the market to grow with similar rate as it’s been growing from last four years.
    • Qualitative to Quantitative Data Conversion: This market study extensively covers numerous factors that are impacting the global Asia Pacific Aerospace Composites market. In certain cases, direct quantitative data were not available to clearly indicate their influencing power on the market. To handle such cases, a rating mechanism was applied that was purely based on the understanding of the experts involved in the study.