Carbon Fiber Composite Intermediates In Aerospace Market By Product Type, By Structure, By Matrix Type, By Application, By End-Use : Global Opportunity Analysis and Industry Forecast, 2024-2033

Description

The global carbon fiber composite intermediates in aerospace market was valued at $14.6 billion in 2023, and is projected to reach $50 billion by 2033, growing at a CAGR of 13.3% from 2024 to 2033. Carbon fiber composites in the intermediate aerospace market refer to materials made by combining carbon fibers with a polymer matrix, such as epoxy or thermoplastics. These composites offer exceptional strength-to-weight ratios, rigidity, and durability, making them ideal for aerospace applications. They are used in various aircraft components, including wings, fuselage sections, and interior elements, due to their lightweight and high-performance characteristics.

Carbon Fiber Composite Intermediates In Aerospace Market - IMG1

The aerospace industry's increasing demand for lightweight materials, driven by the need for improved fuel efficiency and reduced greenhouse gas emissions, is a major driver for carbon fiber composites. These composites replace heavier metals, leading to significant fuel savings and lower operational costs. In addition, the growth in commercial and military aircraft production, fueled by rising air travel demand and defense budgets, further boosts the market. Technological advancements, such as automated fiber placement (AFP), resin transfer molding (RTM), and 3D printing, have enhanced manufacturing efficiency and reduced costs, making carbon fiber composites more attractive for aerospace applications. These factors collectively contribute to the expanding utilization of carbon fiber composites in the aerospace sector.

Carbon fiber composites are integral to modern aircraft due to their exceptional strength-to-weight ratio and durability. They are used in critical components such as wings, fuselage sections, and tail structures, significantly reducing the aircraft's overall weight and enhancing fuel efficiency. In addition, these composites are employed in engine components, interior elements, and landing gear doors, contributing to improved performance and operational cost savings. The versatility of carbon fiber composites makes them essential for both commercial and military aircraft, supporting the industry's push toward more efficient and high-performance aviation solutions.

However, the growth of carbon fiber composite intermediates in the aerospace market is restrained by several factors. High production costs, driven by expensive raw materials, energy-intensive processes, and the need for specialized labor and equipment, make these composites financially challenging for widespread adoption. In addition, the complex manufacturing processes, requiring precision and advanced engineering techniques, further increase costs and production timelines. The availability of substitutes, such as aluminum-lithium alloys and other advanced materials, which offer comparable performance at lower costs or with simpler manufacturing processes, also poses a significant challenge. These economic and technical barriers collectively hinder the broader adoption of carbon fiber composites in the aerospace industry.

Recent advancements in carbon fiber composite technology have focused on enhancing material strength, durability, and sustainability. One notable innovation is "nano stitching," developed by MIT engineers. This technique involves embedding microscopic forests of carbon nanotubes between composite layers, significantly improving resistance to cracks by up to 60%. This advancement addresses the primary vulnerability of composite materials, making them more robust and reliable for aerospace applications.

Another breakthrough is the development of a closed-loop process for synthesizing and fully recovering carbon-fiber-reinforced polymers (CFRPs). This method, designed by the Department of Energy's Oak Ridge National Laboratory, allows for the complete recovery of starting materials, promoting sustainability and reducing waste.

In addition, innovations in recycling carbon fiber have emerged, such as the creation of semi-finished, long fiber products from reclaimed carbon fibers. This approach not only supports environmental sustainability but also provides high-performance materials for various applications. These advancements collectively enhance the performance, durability, and environmental impact of carbon fiber composites, making them more attractive for a wide range of industries, especially aerospace. The presence of these developments is expected to provide ample opportunities for the development of the carbon fiber composites intermediates in aerospace market during the forecast period.

The carbon fiber composite intermediates in aerospace market is segmented into product type, matrix type, structure, application, end-use, and region. On the basis of product type, the market is divided into prepreg, pellets, molding, fabric, pultruded profile, and others. On the basis of matrix type, the market is segmented into polymer matrix, carbon matrix, ceramic matrix, and others. On the basis of structure, the market is segmented into primary, secondary, and interior. On the basis of application, the market is classified into commercial aircraft, military aircraft, spacecraft, unmanned aerial vehicles, helicopters, and general aviation. On the basis of end-use, the market is segmented into original equipment manufacturers, and maintenance, repair, and overhaul providers. On the basis of region, the carbon fiber composite intermediates in aerospace market is analyzed across North America, Europe, Asia-Pacific, and LAMEA.

Prepreg is the dominant segment in terms of market size due to its extensive use in high-performance aerospace components, especially in the primary structures of aircraft. Its properties, such as superior strength-to-weight ratio and ease of use in automated processes, make it a preferred choice for aerospace manufacturers. However, pellets exhibit the fastest growth due to their increasing adoption in injection molding processes, which are gaining popularity in the aerospace sector for producing complex shapes with high precision and lower costs

The primary structure segment dominates the market, driven by the need for robust, lightweight materials in critical aircraft components such as wings and fuselage. The high demand for carbon fiber composites in these applications stems from the necessity to reduce aircraft weight and improve fuel efficiency. Furthermore, the secondary structure segment is growing rapidly as manufacturers seek to replace metal components in non-critical areas with lighter composites, thereby further reducing aircraft weight and improving efficiency.

The carbon matrix segment dominates and develops rapidly due to its excellent high-temperature performance, making it essential for aerospace applications where thermal resistance is critical, such as in engine components and heat shields.

Commercial aircraft is the leading application segment, driven by the continuous growth in air travel and the subsequent demand for new, fuel-efficient aircraft. The adoption of carbon fiber composites in commercial aircraft has been pivotal in reducing operational costs and meeting environmental regulations. In addition, the spacecraft segment is experiencing the fastest growth, driven by the surge in space exploration and satellite launches. The demand for lightweight, durable materials is crucial in reducing launch costs and improving mission longevity.

Original Equipment Manufacturers (OEMs) dominate the market as they are the primary producers of aircraft and spacecraft, necessitating large volumes of carbon fiber composites for new aircraft production. Furthermore, Maintenance, Repair, and Overhaul (MRO) providers are growing rapidly as the existing fleet of aircraft ages, requiring more frequent repairs and upgrades. The use of carbon fiber composites in repairs is becoming more common due to their superior performance characteristics.

North America is the dominant region due to the presence of major aerospace manufacturers such as Boeing and Lockheed Martin, as well as a strong focus on advanced materials and technologies. However, LAMEA (Latin America, Middle East, and Africa) region is growing the fastest, fueled by increase in investments in aerospace infrastructure and the adoption of advanced materials in emerging markets.

The major players operating in the carbon fiber composite intermediates in aerospace market include Toray Industries, inc., Mitsubishi Chemical Corporation, Hexcel Corporation, SGL Carbon, Teijin Limited., Solvay, Isovolta group, Saertex GmbH and CO. KG, Rock West Composites, Inc., and Huntsman corporation.

Toray Industries is a major player in the aerospace sector, primarily due to its advanced carbon fiber composites. As the world's largest producer of carbon fiber which has a global market share of around 35%, Toray's materials are extensively used in aircraft like the Boeing 787 Dreamliner, where they contribute to significant weight reductions and improved fuel efficiency.

Toray has also been involved in innovative projects such as the U.S. Army's Future Long Range Assault Aircraft (FLRAA) program. Its upgraded carbon fiber production line supports the manufacturing of lightweight, high-strength airframes for this next-generation aircraft. In addition, Toray employs materials informatics to develop carbon fiber-reinforced plastics (CFRP) with exceptional flame retardance and mechanical performance, further enhancing their aerospace applications

Key Benefits For Stakeholders

This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the carbon fiber composite intermediates in aerospace market analysis from 2023 to 2033 to identify the prevailing carbon fiber composite intermediates in aerospace market opportunities.
The market research is offered along with information related to key drivers, restraints, and opportunities.
Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
In-depth analysis of the carbon fiber composite intermediates in aerospace market segmentation assists to determine the prevailing market opportunities.
Major countries in each region are mapped according to their revenue contribution to the global market.
Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
The report includes the analysis of the regional as well as global carbon fiber composite intermediates in aerospace market trends, key players, market segments, application areas, and market growth strategies.

Additional benefits you will get with this purchase are:

Quarterly Update and* (only available with a corporate license, on listed price)
5 additional Company Profile of client Choice pre- or Post-purchase, as a free update.
Free Upcoming Version on the Purchase of Five and Enterprise User License.
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15% Free Customization* (in case the scope or segment of the report does not match your requirements, 15% is equivalent to 3 working days of free work, applicable once)
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Possible Customization with this report (with additional cost and timeline, please talk to the sales executive to know more)

Manufacturing Capacity
Installed Base analysis
Investment Opportunities
Upcoming/New Entrant by Regions
Technology Trend Analysis
Consumer Preference and Product Specifications
New Product Development/ Product Matrix of Key Players
Regulatory Guidelines
Strategic Recommedations
Additional company profiles with specific to client's interest
Additional country or region analysis- market size and forecast
Average Selling Price Analysis / Price Point Analysis
Criss-cross segment analysis- market size and forecast
Expanded list for Company Profiles
Historic market data
Import Export Analysis/Data
Key player details (including location, contact details, supplier/vendor network etc. in excel format)
List of customers/consumers/raw material suppliers- value chain analysis
Product Consumption Analysis
SWOT Analysis
Volume Market Size and Forecast

Key Market Segments

By Product Type

Prepreg
Pellets
Molding
- Molding Type
- Sheet Molding Compound
- Bulk Molding Compound
- Resin Transfer Molding Compound
Fabric
Pultruded Profiles
Others

By Structure

Primary
Secondary
Interior

By Matrix Type

Polymer Matrix
Carbon Matrix
Ceramic Matrix
Others

By Application

Commercial Aircraft
Military Aircraft
Spacecraft
Unmanned Aerial Vehicles (UAVs)
Helicopters
General Aviation

By End-Use

Original Equipment Manufacturers (OEMs)
Maintenance, Repair, and Overhaul (MRO) Providers

By Region

North America
- U.S.
- Canada
- Mexico
Europe
- France
- Germany
- Italy
- Spain
- UK
- Rest of Europe
Asia-Pacific
- China
- Japan
- India
- South Korea
- Australia
- Rest of Asia-Pacific
LAMEA
- Brazil
- South Africa
- Saudi Arabia
- Rest of LAMEA

Key Market Players:

Hexcel Corporation
Huntsman Corporation
ISOVOLTA AG
Mitsubishi Chemical Group Corporation.
Rock West Composites, Inc.
SAERTEX GmbH & Co.KG
SGL Carbon
Solvay
TEIJIN LIMITED.
TORAY INDUSTRIES, INC.

Product Code: A325090

CHAPTER 1: INTRODUCTION

1.1. Report description
1.2. Key market segments
1.3. Key benefits to the stakeholders
1.4. Research methodology
- 1.4.1. Primary research
- 1.4.2. Secondary research
- 1.4.3. Analyst tools and models

CHAPTER 2: EXECUTIVE SUMMARY

2.1. CXO perspective

CHAPTER 3: MARKET OVERVIEW

3.1. Market definition and scope
3.2. Key findings
- 3.2.1. Top impacting factors
- 3.2.2. Top investment pockets
3.3. Porter's five forces analysis
- 3.3.1. Moderate bargaining power of suppliers
- 3.3.2. High threat of new entrants
- 3.3.3. High threat of substitutes
- 3.3.4. High intensity of rivalry
- 3.3.5. Moderate bargaining power of buyers
3.4. Market dynamics
- 3.4.1. Drivers
  - 3.4.1.1. Increase in demand for lightweight materials in the aerospace industry
  - 3.4.1.2. Growth of commercial and military aircraft production
- 3.4.2. Restraints
  - 3.4.2.1. High production cost of carbon fiber composites
  - 3.4.2.2. Complex manufacturing process
- 3.4.3. Opportunities
  - 3.4.3.1. Expansion in emerging markets
3.5. Average Selling Price
3.6. Value Chain Analysis
3.7. Regulatory Guidelines
3.8. Patent Landscape

CHAPTER 4: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY PRODUCT TYPE

4.1. Overview
- 4.1.1. Market size and forecast
4.2. Prepreg
- 4.2.1. Key market trends, growth factors and opportunities
- 4.2.2. Market size and forecast, by region
- 4.2.3. Market share analysis by country
4.3. Pellets
- 4.3.1. Key market trends, growth factors and opportunities
- 4.3.2. Market size and forecast, by region
- 4.3.3. Market share analysis by country
4.4. Molding
- 4.4.1. Key market trends, growth factors and opportunities
- 4.4.2. Market size and forecast, by region
- 4.4.3. Market share analysis by country
- 4.4.4. Molding Carbon Fiber Composite Intermediates In Aerospace Market by Molding Type
4.5. Fabric
- 4.5.1. Key market trends, growth factors and opportunities
- 4.5.2. Market size and forecast, by region
- 4.5.3. Market share analysis by country
4.6. Pultruded Profiles
- 4.6.1. Key market trends, growth factors and opportunities
- 4.6.2. Market size and forecast, by region
- 4.6.3. Market share analysis by country
4.7. Others
- 4.7.1. Key market trends, growth factors and opportunities
- 4.7.2. Market size and forecast, by region
- 4.7.3. Market share analysis by country

CHAPTER 5: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY STRUCTURE

5.1. Overview
- 5.1.1. Market size and forecast
5.2. Primary
- 5.2.1. Key market trends, growth factors and opportunities
- 5.2.2. Market size and forecast, by region
- 5.2.3. Market share analysis by country
5.3. Secondary
- 5.3.1. Key market trends, growth factors and opportunities
- 5.3.2. Market size and forecast, by region
- 5.3.3. Market share analysis by country
5.4. Interior
- 5.4.1. Key market trends, growth factors and opportunities
- 5.4.2. Market size and forecast, by region
- 5.4.3. Market share analysis by country

CHAPTER 6: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY MATRIX TYPE

6.1. Overview
- 6.1.1. Market size and forecast
6.2. Polymer Matrix
- 6.2.1. Key market trends, growth factors and opportunities
- 6.2.2. Market size and forecast, by region
- 6.2.3. Market share analysis by country
6.3. Carbon Matrix
- 6.3.1. Key market trends, growth factors and opportunities
- 6.3.2. Market size and forecast, by region
- 6.3.3. Market share analysis by country
6.4. Ceramic Matrix
- 6.4.1. Key market trends, growth factors and opportunities
- 6.4.2. Market size and forecast, by region
- 6.4.3. Market share analysis by country
6.5. Others
- 6.5.1. Key market trends, growth factors and opportunities
- 6.5.2. Market size and forecast, by region
- 6.5.3. Market share analysis by country

CHAPTER 7: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY APPLICATION

7.1. Overview
- 7.1.1. Market size and forecast
7.2. Commercial Aircraft
- 7.2.1. Key market trends, growth factors and opportunities
- 7.2.2. Market size and forecast, by region
- 7.2.3. Market share analysis by country
7.3. Military Aircraft
- 7.3.1. Key market trends, growth factors and opportunities
- 7.3.2. Market size and forecast, by region
- 7.3.3. Market share analysis by country
7.4. Spacecraft
- 7.4.1. Key market trends, growth factors and opportunities
- 7.4.2. Market size and forecast, by region
- 7.4.3. Market share analysis by country
7.5. Unmanned Aerial Vehicles (UAVs)
- 7.5.1. Key market trends, growth factors and opportunities
- 7.5.2. Market size and forecast, by region
- 7.5.3. Market share analysis by country
7.6. Helicopters
- 7.6.1. Key market trends, growth factors and opportunities
- 7.6.2. Market size and forecast, by region
- 7.6.3. Market share analysis by country
7.7. General Aviation
- 7.7.1. Key market trends, growth factors and opportunities
- 7.7.2. Market size and forecast, by region
- 7.7.3. Market share analysis by country

CHAPTER 8: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY END-USE

8.1. Overview
- 8.1.1. Market size and forecast
8.2. Original Equipment Manufacturers (OEMs)
- 8.2.1. Key market trends, growth factors and opportunities
- 8.2.2. Market size and forecast, by region
- 8.2.3. Market share analysis by country
8.3. Maintenance, Repair, and Overhaul (MRO) Providers
- 8.3.1. Key market trends, growth factors and opportunities
- 8.3.2. Market size and forecast, by region
- 8.3.3. Market share analysis by country

CHAPTER 9: CARBON FIBER COMPOSITE INTERMEDIATES IN AEROSPACE MARKET, BY REGION

9.1. Overview
- 9.1.1. Market size and forecast By Region
9.2. North America
- 9.2.1. Key market trends, growth factors and opportunities
- 9.2.2. Market size and forecast, by Product Type
- 9.2.3. Market size and forecast, by Structure
- 9.2.4. Market size and forecast, by Matrix Type
- 9.2.5. Market size and forecast, by Application
- 9.2.6. Market size and forecast, by End-Use
- 9.2.7. Market size and forecast, by country
  - 9.2.7.1. U.S.
  - 9.2.7.1.1. Market size and forecast, by Product Type
  - 9.2.7.1.2. Market size and forecast, by Structure
  - 9.2.7.1.3. Market size and forecast, by Matrix Type
  - 9.2.7.1.4. Market size and forecast, by Application
  - 9.2.7.1.5. Market size and forecast, by End-Use
  - 9.2.7.2. Canada
  - 9.2.7.2.1. Market size and forecast, by Product Type
  - 9.2.7.2.2. Market size and forecast, by Structure
  - 9.2.7.2.3. Market size and forecast, by Matrix Type
  - 9.2.7.2.4. Market size and forecast, by Application
  - 9.2.7.2.5. Market size and forecast, by End-Use
  - 9.2.7.3. Mexico
  - 9.2.7.3.1. Market size and forecast, by Product Type
  - 9.2.7.3.2. Market size and forecast, by Structure
  - 9.2.7.3.3. Market size and forecast, by Matrix Type
  - 9.2.7.3.4. Market size and forecast, by Application
  - 9.2.7.3.5. Market size and forecast, by End-Use
9.3. Europe
- 9.3.1. Key market trends, growth factors and opportunities
- 9.3.2. Market size and forecast, by Product Type
- 9.3.3. Market size and forecast, by Structure
- 9.3.4. Market size and forecast, by Matrix Type
- 9.3.5. Market size and forecast, by Application
- 9.3.6. Market size and forecast, by End-Use
- 9.3.7. Market size and forecast, by country
  - 9.3.7.1. France
  - 9.3.7.1.1. Market size and forecast, by Product Type
  - 9.3.7.1.2. Market size and forecast, by Structure
  - 9.3.7.1.3. Market size and forecast, by Matrix Type
  - 9.3.7.1.4. Market size and forecast, by Application
  - 9.3.7.1.5. Market size and forecast, by End-Use
  - 9.3.7.2. Germany
  - 9.3.7.2.1. Market size and forecast, by Product Type
  - 9.3.7.2.2. Market size and forecast, by Structure
  - 9.3.7.2.3. Market size and forecast, by Matrix Type
  - 9.3.7.2.4. Market size and forecast, by Application
  - 9.3.7.2.5. Market size and forecast, by End-Use
  - 9.3.7.3. Italy
  - 9.3.7.3.1. Market size and forecast, by Product Type
  - 9.3.7.3.2. Market size and forecast, by Structure
  - 9.3.7.3.3. Market size and forecast, by Matrix Type
  - 9.3.7.3.4. Market size and forecast, by Application
  - 9.3.7.3.5. Market size and forecast, by End-Use
  - 9.3.7.4. Spain
  - 9.3.7.4.1. Market size and forecast, by Product Type
  - 9.3.7.4.2. Market size and forecast, by Structure
  - 9.3.7.4.3. Market size and forecast, by Matrix Type
  - 9.3.7.4.4. Market size and forecast, by Application
  - 9.3.7.4.5. Market size and forecast, by End-Use
  - 9.3.7.5. UK
  - 9.3.7.5.1. Market size and forecast, by Product Type
  - 9.3.7.5.2. Market size and forecast, by Structure
  - 9.3.7.5.3. Market size and forecast, by Matrix Type
  - 9.3.7.5.4. Market size and forecast, by Application
  - 9.3.7.5.5. Market size and forecast, by End-Use
  - 9.3.7.6. Rest of Europe
  - 9.3.7.6.1. Market size and forecast, by Product Type
  - 9.3.7.6.2. Market size and forecast, by Structure
  - 9.3.7.6.3. Market size and forecast, by Matrix Type
  - 9.3.7.6.4. Market size and forecast, by Application
  - 9.3.7.6.5. Market size and forecast, by End-Use
9.4. Asia-Pacific
- 9.4.1. Key market trends, growth factors and opportunities
- 9.4.2. Market size and forecast, by Product Type
- 9.4.3. Market size and forecast, by Structure
- 9.4.4. Market size and forecast, by Matrix Type
- 9.4.5. Market size and forecast, by Application
- 9.4.6. Market size and forecast, by End-Use
- 9.4.7. Market size and forecast, by country
  - 9.4.7.1. China
  - 9.4.7.1.1. Market size and forecast, by Product Type
  - 9.4.7.1.2. Market size and forecast, by Structure
  - 9.4.7.1.3. Market size and forecast, by Matrix Type
  - 9.4.7.1.4. Market size and forecast, by Application
  - 9.4.7.1.5. Market size and forecast, by End-Use
  - 9.4.7.2. Japan
  - 9.4.7.2.1. Market size and forecast, by Product Type
  - 9.4.7.2.2. Market size and forecast, by Structure
  - 9.4.7.2.3. Market size and forecast, by Matrix Type
  - 9.4.7.2.4. Market size and forecast, by Application
  - 9.4.7.2.5. Market size and forecast, by End-Use
  - 9.4.7.3. India
  - 9.4.7.3.1. Market size and forecast, by Product Type
  - 9.4.7.3.2. Market size and forecast, by Structure
  - 9.4.7.3.3. Market size and forecast, by Matrix Type
  - 9.4.7.3.4. Market size and forecast, by Application
  - 9.4.7.3.5. Market size and forecast, by End-Use
  - 9.4.7.4. South Korea
  - 9.4.7.4.1. Market size and forecast, by Product Type
  - 9.4.7.4.2. Market size and forecast, by Structure
  - 9.4.7.4.3. Market size and forecast, by Matrix Type
  - 9.4.7.4.4. Market size and forecast, by Application
  - 9.4.7.4.5. Market size and forecast, by End-Use
  - 9.4.7.5. Australia
  - 9.4.7.5.1. Market size and forecast, by Product Type
  - 9.4.7.5.2. Market size and forecast, by Structure
  - 9.4.7.5.3. Market size and forecast, by Matrix Type
  - 9.4.7.5.4. Market size and forecast, by Application
  - 9.4.7.5.5. Market size and forecast, by End-Use
  - 9.4.7.6. Rest of Asia-Pacific
  - 9.4.7.6.1. Market size and forecast, by Product Type
  - 9.4.7.6.2. Market size and forecast, by Structure
  - 9.4.7.6.3. Market size and forecast, by Matrix Type
  - 9.4.7.6.4. Market size and forecast, by Application
  - 9.4.7.6.5. Market size and forecast, by End-Use
9.5. LAMEA
- 9.5.1. Key market trends, growth factors and opportunities
- 9.5.2. Market size and forecast, by Product Type
- 9.5.3. Market size and forecast, by Structure
- 9.5.4. Market size and forecast, by Matrix Type
- 9.5.5. Market size and forecast, by Application
- 9.5.6. Market size and forecast, by End-Use
- 9.5.7. Market size and forecast, by country
  - 9.5.7.1. Brazil
  - 9.5.7.1.1. Market size and forecast, by Product Type
  - 9.5.7.1.2. Market size and forecast, by Structure
  - 9.5.7.1.3. Market size and forecast, by Matrix Type
  - 9.5.7.1.4. Market size and forecast, by Application
  - 9.5.7.1.5. Market size and forecast, by End-Use
  - 9.5.7.2. South Africa
  - 9.5.7.2.1. Market size and forecast, by Product Type
  - 9.5.7.2.2. Market size and forecast, by Structure
  - 9.5.7.2.3. Market size and forecast, by Matrix Type
  - 9.5.7.2.4. Market size and forecast, by Application
  - 9.5.7.2.5. Market size and forecast, by End-Use
  - 9.5.7.3. Saudi Arabia
  - 9.5.7.3.1. Market size and forecast, by Product Type
  - 9.5.7.3.2. Market size and forecast, by Structure
  - 9.5.7.3.3. Market size and forecast, by Matrix Type
  - 9.5.7.3.4. Market size and forecast, by Application
  - 9.5.7.3.5. Market size and forecast, by End-Use
  - 9.5.7.4. Rest of LAMEA
  - 9.5.7.4.1. Market size and forecast, by Product Type
  - 9.5.7.4.2. Market size and forecast, by Structure
  - 9.5.7.4.3. Market size and forecast, by Matrix Type
  - 9.5.7.4.4. Market size and forecast, by Application
  - 9.5.7.4.5. Market size and forecast, by End-Use

CHAPTER 10: COMPETITIVE LANDSCAPE

10.1. Introduction
10.2. Top winning strategies
10.3. Product mapping of top 10 player
10.4. Competitive dashboard
10.5. Competitive heatmap
10.6. Top player positioning, 2023

CHAPTER 11: COMPANY PROFILES

11.1. TORAY INDUSTRIES, INC.
- 11.1.1. Company overview
- 11.1.2. Key executives
- 11.1.3. Company snapshot
- 11.1.4. Operating business segments
- 11.1.5. Product portfolio
- 11.1.6. Business performance
- 11.1.7. Key strategic moves and developments
11.2. Mitsubishi Chemical Group Corporation.
- 11.2.1. Company overview
- 11.2.2. Key executives
- 11.2.3. Company snapshot
- 11.2.4. Operating business segments
- 11.2.5. Product portfolio
- 11.2.6. Business performance
- 11.2.7. Key strategic moves and developments
11.3. Hexcel Corporation
- 11.3.1. Company overview
- 11.3.2. Key executives
- 11.3.3. Company snapshot
- 11.3.4. Operating business segments
- 11.3.5. Product portfolio
- 11.3.6. Business performance
11.4. SGL Carbon
- 11.4.1. Company overview
- 11.4.2. Key executives
- 11.4.3. Company snapshot
- 11.4.4. Operating business segments
- 11.4.5. Product portfolio
- 11.4.6. Business performance
11.5. TEIJIN LIMITED.
- 11.5.1. Company overview
- 11.5.2. Key executives
- 11.5.3. Company snapshot
- 11.5.4. Operating business segments
- 11.5.5. Product portfolio
- 11.5.6. Business performance
11.6. Solvay
- 11.6.1. Company overview
- 11.6.2. Key executives
- 11.6.3. Company snapshot
- 11.6.4. Operating business segments
- 11.6.5. Product portfolio
- 11.6.6. Business performance
11.7. ISOVOLTA AG
- 11.7.1. Company overview
- 11.7.2. Key executives
- 11.7.3. Company snapshot
- 11.7.4. Operating business segments
- 11.7.5. Product portfolio
11.8. SAERTEX GmbH & Co.KG
- 11.8.1. Company overview
- 11.8.2. Key executives
- 11.8.3. Company snapshot
- 11.8.4. Operating business segments
- 11.8.5. Product portfolio
11.9. Rock West Composites, Inc.
- 11.9.1. Company overview
- 11.9.2. Key executives
- 11.9.3. Company snapshot
- 11.9.4. Operating business segments
- 11.9.5. Product portfolio
11.10. Huntsman Corporation
- 11.10.1. Company overview
- 11.10.2. Key executives
- 11.10.3. Company snapshot
- 11.10.4. Operating business segments
- 11.10.5. Product portfolio
- 11.10.6. Business performance