Carbon Fiber in the Aerospace and Defense Market, By Aircraft (commercial aerospace, regional jets, general aviation, helicopter, military aircraft, UAV), By Precursor Type (PAN based, pitch based), By Tow Size (small tow, large tow) , By Modulus (standard, intermediate, high) , By Component (Primary, Interior, Engine), By Region (North America, Western Europe, Eastern Europe, Asia Pacific, Middle East, Rest of the World) – Market Size & Forecasting (2016-2028)

The Carbon Fiber in the Aerospace and Defense Market report highlights market opportunities and competitive scenarios for carbon fiber in the aerospace and defense on a regional and global basis. Market size estimation and forecasts have been provided based on a unique research design customized to the dynamics of the carbon fiber in the aerospace and defense market. The carbon fiber in the aerospace and defense market has been segmented, by aircraft (commercial aerospace, regional jets, general aviation, helicopter, military aircraft, UAV), by precursor type (pan based, pitch-based), by tow size (small tow, large tow) , by modulus (standard, intermediate, high) and by component (primary, interior, engine). Historic back-drop for carbon fiber in the aerospace and defense market has been analyzed according to organic and inorganic developments to provide precise market size estimations. Also, key factors impacting the growth of the carbon fiber in the aerospace and defense market have been identified with potential gravity. Major regions covered in the study include North America, Western Europe, Eastern Europe, Asia Pacific, Middle East, and Rest of the World.

Market Segmentation:

By Aircraft:

  • Commercial aerospace
  • Regional jets
  • General aviation
  • Helicopter
  • Military Aircraft
  • UAV

By Precursor Type:

  • PAN Based
  • Pitch Based

By Tow Size:

  • Small tow
  • Large tow

By Modulus:

  • Standard
  • Intermediate
  • High

By Component:

  • Primary
  • Interior
  • Engine

By Region:

  • North America
    • North America, by Country
      • US
      • Canada
      • Mexico
    • North America, by Aircraft
    • North America, by Precursor Type
    • North America, by Tow Size
    • North America, by Modulus
    • North America, by Component
  • Western Europe
    • Western Europe, by Country
      • Germany
      • UK
      • France
      • Italy
      • Spain
      • The Netherlands
      • Rest of Western Europe
    • Western Europe, by Aircraft
    • Western Europe, by Precursor Type
    • Western Europe, by Tow Size
    • Western Europe, by Modulus
    • Western Europe, by Component
  • Asia Pacific
    • Asia Pacific, by Country
      • China
      • India
      • Japan
      • South Korea
      • Australia
      • Indonesia
      • Rest of Asia Pacific
    • Asia Pacific, by Aircraft
    • Asia Pacific, by Precursor Type
    • Asia Pacific, by Tow Size
    • Asia Pacific, by Modulus
    • Asia Pacific, by Component
  • Eastern Europe
    • Eastern Europe, by Country
      • Russia
      • Turkey
      • Rest of Eastern Europe
    • Eastern Europe, by Aircraft
    • Eastern Europe, by Precursor Type
    • Eastern Europe, by Tow Size
    • Eastern Europe, by Modulus
    • Eastern Europe, by Component
  • Middle East
    • Middle East, by Country
      • UAE
      • Saudi Arabia
      • Qatar
      • Iran
      • Rest of Middle East
    • Middle East, by Aircraft
    • Middle East, by Precursor Type
    • Middle East, by Tow Size
    • Middle East, by Modulus
    • Middle East, by Component
  • Rest of the World
    • Rest of the World, by Country
      • South America
      • Africa
    • Rest of the World, by Aircraft
    • Rest of the World, by Precursor Type
    • Rest of the World, by Tow Size
    • Rest of the World, by Modulus
    • Rest of the World, by Component

Major Companies:

Toray Industries Inc., SGL Group, Hexcel Corporation, Mitsubishi Rayon Co. Ltd., Teijin Limited, Formosa Plastics Corporation, Solvay, Jiangsu Hengshen Co. Ltd., Hyosung, DowAksa

Years Covered in the Study:

Historic Year: 2016-2017

Base Year: 2018

Estimated Year: 2019

Forecast Year: 2028

Objectives of this report:

  • To estimate the market size for high strength carbon fiber in the aerospace and defense market on a regional and global basis.
  • To identify major segments in high strength carbon fiber in the aerospace and defense market and evaluate their market shares and demand.
  • To provide a competitive scenario for the high strength carbon fiber in the aerospace and defense market with major developments observed by key companies in the historic years.
  • To evaluate key factors governing the dynamics of high strength carbon fiber in the aerospace and defense market with their potential gravity during the forecast period.

Reasons to Buy This Report:

  • Provides niche insights for a decision about every possible segment helping in the strategic decision-making process.
  • Market size estimation of the high strength carbon fiber in the aerospace and defense market on a regional and global basis.
  • A unique research design for market size estimation and forecast.
  • Identification of major companies operating in the market with related developments
  • Exhaustive scope to cover all the possible segments helping every stakeholder in the high strength carbon fiber in the aerospace and defense market.

Customization:

This study is customized to meet your specific requirements:

  • By Segment
  • By Sub-segment
  • By Region/Country
  • Product Specific Competitive Analysis

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