Carbon Fiber Market Report
RA07024
Carbon Fiber Market by Raw Material (PAN Based and Pitch Based), Tow Size (Small Tow and Large Tow), Application (Automotive, Aerospace & Defense, Wind Turbines, Sports/Leisure, Molding & Compound, Construction, Pressure Vessel, and Others), and Region (North America, Europe, Asia-Pacific, and LAMEA): Opportunity Analysis and Industry Forecast, 2023-2032
Carbon Fiber Overview
Carbon fiber is a lightweight and strong material used in various industries. It is composed of thin strands of carbon atoms tightly woven together to form a durable structure. Due to its exceptional strength-to-weight ratio, carbon fiber finds widespread applications in aerospace, automotive, sports equipment, and more. It's often used to replace traditional materials like steel and aluminum in these industries. Carbon fiber's key properties include being lightweight, high tensile strength, corrosion resistance, and excellent stiffness. These qualities make it ideal for enhancing the performance and durability of products. Due to its outstanding qualities, carbon fiber is widely used in many different sectors. One of its distinguishing qualities is that it is both incredibly powerful (able to handle the weight) and light, has a good strength-to-weight ratio, and is perfect for applications where weight reduction is critical, such as the aerospace and automotive sectors. Even though carbon fiber is lightweight, in some arrangements it may outperform steel in strength. Carbon fiber is also recognized for its rigidity which means it does not bend or deform easily under stress. Carbon fiber is flexible and can be molded into many shapes making it useful for a variety of applications.
Global Carbon Fiber Market Analysis
The global carbon fiber market size was $5.6 billion in 2022 and is predicted to grow with a CAGR of 11.5%, by generating a revenue of $16.2 billion by 2032.
COVID-19 Impact on Global Carbon Fiber Market
The COVID-19 pandemic had a significant impact on the carbon fiber industry. As a result of broad worldwide lockdowns and limitations on travel and manufacturing some industries that rely significantly on carbon fiber, including aerospace and automotive, saw a drop in demand. The aircraft sector for example suffered significantly as air travel was severely curtailed; this resulted in a fall in aircraft production and led to a decrease in demand for carbon fiber materials used in aircraft construction. Similar to other industries, the automobile sector saw a drop in sales and output during the pandemic, due to supply chain problems and a decline in consumer spending. The demand for carbon fiber-reinforced parts used in luxury and electric vehicles also thus saw a decline.
Businesses are starting up again as the world slowly recovers from the pandemic, and the demand for carbon fiber products is expected to rise. The recovery and future expansion of the carbon fiber industry are likely being driven by the rising importance of sustainable practices and the expanding use of lightweight materials in a variety of applications. In summary, the COVID-19 pandemic had a negative impact on the carbon fiber industry due to reduced demand from aerospace, automotive, and sports goods sectors. However, with the gradual recovery of these industries and the growing focus on sustainability, the market for carbon fiber is expected to regain momentum in the coming years.
The Advantages of Carbon Fiber to Drive Market Growth
Carbon fiber is an excellent alternative to traditional materials like steel or aluminum because of its high strength-to-weight ratio for applications needing weight reduction, such as in aerospace and automotive sectors. Despite being lightweight, carbon fiber is incredibly strong; its tensile strength exceeds that of many metals, allowing it to bear enormous loads and high-stress situations without sacrificing structural integrity. Corrosion, which is a problem that frequently affects metals, is not a problem for carbon fiber, because carbon fiber does not rust or decay when exposed to moisture or harsh chemicals. It has a longer lifespan and requires less maintenance than steel or aluminum. Because of its limited electrical conductivity, carbon fiber can be useful in some applications; it is suitable for use in electrical components that require insulation and non-conductivity such as aviation parts and electronic devices and automotive systems. Carbon fiber is a highly adaptable material that can be shaped into intricate forms and structures. It enables engineers and designers to produce unique and optimum solutions in a wide range of sectors including automotive and sports and architecture. Compared to the manufacture of conventional materials like steel or aluminum, carbon fiber usually uses less energy which has a positive impact on the environment.
Limitations of Carbon Fiber Including Cost, Brittleness, and Environmental Impact to Restrain the Market
Carbon fiber is is a costly material to create. The complicated procedures and specialized equipment needed for its manufacturing process result in greater production costs. Carbon fiber is relatively brittle and can break or crack under excessive stress or impact. Unlike some other materials, it does not exhibit significant flexibility or ductility, which can limit its applications in certain scenarios where toughness is required. Carbon fiber products are challenging to recycle due to their complex composite structure. The recycling process requires specialized methods and facilities, making it less accessible and less efficient compared to the recycling of other materials like aluminum or steel. Carbon fiber synthesis requires energy-intensive procedures that contribute to carbon emissions and pollution. Furthermore, restricted recycling alternatives and the disposal of carbon fiber goods that have reached the end of their life cycle might be environmentally hazardous. Carbon fiber can react unfavorably to certain chemicals, causing degradation or weakening of the material. This sensitivity can restrict its use in environments where exposure to specific chemicals or solvents is expected.
Advancements in Carbon Fiber to Drive Excellent Opportunities for Future
Carbon fiber technology developments are projected to result in major modifications in the future, and researchers and engineers are actively attempting to improve the qualities and capabilities of carbon fiber materials. Increasing the strength-to-weight ratio of carbon fiber is one area of focus; scientists want to make carbon fiber composites that are increasingly stronger and lighter by creating manufacturing methods that optimize the arrangement of carbon fibers. This would make it possible to build stronger and longer-lasting buildings and lighter more fuel-efficient cars and boost performance across a variety of sectors. Additionally, efforts are being made to improve the toughness and impact resistance of carbon fiber. Researchers are exploring methods to enhance the material's ability to withstand sudden impacts and prevent damage. This could lead to safer applications of carbon fiber in areas such as sports equipment, aerospace components, and automotive parts. Moreover, advancements in carbon fiber recycling and reusing technologies are anticipated. As the demand for sustainable materials grows, researchers are striving to develop efficient processes to recycle carbon fiber composites and recover valuable fibers for reuse. This would help reduce waste and promote a more environmentally friendly approach to carbon fiber manufacturing. Overall, future upgrades in carbon fiber involve increasing its strength-to-weight ratio, improving toughness and impact resistance, and developing recycling technologies. All these factors are predicted to create investment opportunities for manufacturers in the business.
Global Carbon Fiber Market, by Raw Material, 2022
The pan based sub-segment accounted for the highest market share in 2022. One of the major benefits of employing PAN (polyacrylonitrile) as a carbon fiber raw material is its ability to generate fibers with a high strength-to-weight ratio. This implies that carbon fibers manufactured from PAN are extremely strong and lightweight, making them excellent for applications requiring both strength and weight reduction, such as the aerospace and automotive sectors. Carbon fibers derived from PAN exhibit excellent stiffness properties. They possess a high modulus of elasticity, which means they can resist deformation under applied loads, maintaining their shape and structural integrity. This characteristic is essential in various industries, including sports equipment and advanced composites. PAN-based carbon fibers have good resistance to many chemicals and solvents. They can withstand exposure to various corrosive substances, making them suitable for applications where chemical resistance is required, such as in the production of chemical storage tanks and pipes. Compared to other raw materials for carbon fiber production, PAN is relatively cost-effective. Its availability and ease of processing contribute to lower manufacturing costs, making PAN-based carbon fibers a viable option for various industries seeking lightweight and high-performance materials without excessive expenses.
Global Carbon Fiber Market, by Tow Size, 2022
The small tow sub-segment accounted for the highest market share in 2022. Small tow carbon fiber has several positive points that make it advantageous in various applications. Small tow carbon fiber exhibits exceptional strength, despite being lightweight. This characteristic allows it to offer impressive structural integrity while minimizing overall weight. It is stronger than steel but significantly lighter. Small tow carbon fiber possesses excellent rigidity and stiffness, providing enhanced stability and resistance to deformation. This property allows it to maintain its shape and structural integrity under heavy loads and extreme conditions. In contrast to metals that may corrode or rust over time, small tow carbon fiber has a strong resistance to corrosion. Due to its resistance it may be used in extreme situations where corrosion prevention is essential, such as the maritime or aerospace sectors.
Global Carbon Fiber Market, by Application, 2022
The aerospace & defense sub-segment accounted for the highest market share in 2022. Because of its unique features and benefits, carbon fiber is widely used in the aerospace and military sectors. Carbon fiber is frequently used in these sectors because it combines great strength with low weight, making it excellent for applications where weight reduction is critical. Materials that are strong and stiff and lightweight are frequently needed for aerospace and defense applications in order to increase overall performance and fuel economy. Because of their superior strength-to-weight ratio carbon fiber composites are far lighter than conventional materials like steel or aluminum while yet being able to bear heavy loads and strains. Increased fuel economy and longer flying times and better agility for airplanes and spacecraft are all strongly correlated with weight reduction. Additionally, because of their extraordinary resistance to corrosion and fatigue carbon fiber composites are exceptionally durable and ideal for harsh situations. They are very stiff and tensile strong and temperature resistant which enables them to preserve their structural integrity even in harsh environments like high altitudes or strong vibrations.
Global Carbon Fiber Size & Forecast, by Region, 2022-2032
The Europe carbon fiber market generated the highest revenue in 2022. Europe is a dominating region for the use of carbon fiber due to several reasons. Firstly, European countries have a strong focus on innovation and technological advancements, which has led to significant developments in carbon fiber production and applications. Second, Europe has a well-established automobile sector that recognizes the importance of lightweight materials such as carbon fiber in boosting fuel economy and lowering pollutants. The region has been at the forefront of using carbon fiber in automobile manufacture. Thirdly, European governments have implemented stringent regulations to reduce carbon emissions and promote sustainability. This has incentivized industries to invest in carbon fiber technologies as a means to meet these environmental targets.
Competitive Scenario in the Global Carbon Fiber Market
Some of the companies in the market include A&P Technology Inc, Anshan Sinocarb Carbon Fibers Co. Ltd, DowAksa USA LLC, Formosa Plastics Corporation, Hexcel Corporation, Holding company Composite, Hyosung Advanced Materials, Jiangsu Hengshen Co. Ltd, Mitsubishi Chemical Corporation, and Nippon Graphite Fiber Co. Ltd.
Aspect | Particular |
Historical Market Estimations | 2020-2021 |
Base Year for Market Estimation | 2022 |
Forecast Timeline for Market Projection | 2023-2032 |
Geographical Scope | North America, Europe, Asia-Pacific, and LAMEA |
Segmentation by Raw Material |
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Segmentation by Tow Size |
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Segmentation by Application |
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Key Companies Profiled |
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Q1. What is the size of the global carbon fiber market?
A. The size of the global carbon fiber market was over $5.6 billion in 2022 and is projected to reach $16.2 billion by 2032.
Q2. Which are the major companies in the carbon fiber market?
A. A&P Technology Inc, Anshan Sinocarb Carbon Fibers Co. Ltd, DowAksa USA LLC, and Formosa Plastics Corporation are the major companies in the Carbon Fiber market.
Q3. Which region, among others, possesses greater investment opportunities in the near future?
A. The Europe region possesses great investment opportunities for investors to witness the most promising growth in the future.
Q4. What are the strategies opted by the leading players in this market?
A. Agreement and investment are the two key strategies opted by the operating companies in this market.
Q5. Which companies are investing more on R&D practices?
A. Holding company Composite, Hyosung Advanced Materials, Jiangsu Hengshen Co. Ltd, Mitsubishi Chemical Corporation, and Nippon Graphite Fiber Co. Ltd. are investing more on R&D practices.
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1. RESEARCH METHODOLOGY
1.1. Desk Research
1.2. Real time insights and validation
1.3. Forecast model
1.4. Assumptions and forecast parameters
1.5. Market size estimation
1.5.1. Top-down approach
1.5.2. Bottom-up approach
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2. REPORT SCOPE
2.1. Market definition
2.2. Key objectives of the study
2.3. Report overview
2.4. Market segmentation
2.5. Overview of the impact of COVID-19 on Global Carbon Fiber Market
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3. EXECUTIVE SUMMARY
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4. MARKET OVERVIEW
4.1. Introduction
4.2. Growth impact forces
4.2.1. Drivers
4.2.2. Restraints
4.2.3. Opportunities
4.3. Market value chain analysis
4.3.1. List of raw material suppliers
4.3.2. List of manufacturers
4.3.3. List of distributors
4.4. Innovation & sustainability matrices
4.4.1. Technology matrix
4.4.2. Regulatory matrix
4.5. Porter’s five forces analysis
4.5.1. Bargaining power of suppliers
4.5.2. Bargaining power of consumers
4.5.3. Threat of substitutes
4.5.4. Threat of new entrants
4.5.5. Competitive rivalry intensity
4.6. PESTLE analysis
4.6.1. Political
4.6.2. Economical
4.6.3. Social
4.6.4. Technological
4.6.5. Environmental
4.7. Impact of COVID-19 on Carbon Fiber Market
4.7.1. Pre-covid market scenario
4.7.2. Post-covid market scenario
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5. Carbon Fiber Market, By Product
5.1. Overview
5.2 Continuous carbon fiber
5.2.1 Definition, key trends, growth factors, and opportunities
5.2.2 Market size analysis, by region, 2020-2027
5.2.3 Market share analysis, by country, 2020-2027
5.3 Long carbon fiber
5.3.1 Definition, key trends, growth factors, and opportunities
5.3.2 Market size analysis, by region, 2020-2027
5.3.3 Market share analysis, by country, 2020-2027
5.4 Short carbon fiber
5.4.1 Definition, key trends, growth factors, and opportunities
5.4.2 Market size analysis, by region, 2020-2027
5.4.3 Market share analysis, by country, 2020-2027
5.5 Research Dive Exclusive Insights
5.5.1 Market attractiveness
5.5.2 Competition heatmap
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6. Carbon Fiber Market, By Application
6.1. Overview
6.2 Aerospace & Dfense
6.2.1 Definition, key trends, growth factors, and opportunities
6.2.2 Market size analysis, by region, 2020-2027
6.2.3 Market share analysis, by country, 2020-2027
6.3 Sports/Leisure
6.3.1 Definition, key trends, growth factors, and opportunities
6.3.2 Market size analysis, by region, 2020-2027
6.3.3 Market share analysis, by country, 2020-2027
6.4 Wind Turbines
6.4.1 Definition, key trends, growth factors, and opportunities
6.4.2 Market size analysis, by region, 2020-2027
6.4.3 Market share analysis, by country, 2020-2027
6.5 Molding & Compounds
6.5.1 Definition, key trends, growth factors, and opportunities
6.5.2 Market size analysis, by region, 2020-2027
6.5.3 Market share analysis, by country, 2020-2027
6.6 Automotive
6.6.1 Definition, key trends, growth factors, and opportunities
6.6.2 Market size analysis, by region, 2020-2027
6.6.3 Market share analysis, by country, 2020-2027
6.7 Pressure Vessels
6.7.1 Definition, key trends, growth factors, and opportunities
6.7.2 Market size analysis, by region, 2020-2027
6.7.3 Market share analysis, by country, 2020-2027
6.8 Civil Engineering
6.8.1 Definition, key trends, growth factors, and opportunities
6.8.2 Market size analysis, by region, 2020-2027
6.8.3 Market share analysis, by country, 2020-2027
6.9 Marine
6.9.1 Definition, key trends, growth factors, and opportunities
6.9.2 Market size analysis, by region, 2020-2027
6.9.3 Market share analysis, by country, 2020-2027
6.10 Pultrusion Misc.
6.10.1 Definition, key trends, growth factors, and opportunities
6.10.2 Market size analysis, by region, 2020-2027
6.10.3 Market share analysis, by country, 2020-2027
6.11 Misc. Consumer
6.11.1 Definition, key trends, growth factors, and opportunities
6.11.2 Market size analysis, by region, 2020-2027
6.11.3 Market share analysis, by country, 2020-2027
6.12 Sailing/Yacht Building
6.12.1 Definition, key trends, growth factors, and opportunities
6.12.2 Market size analysis, by region, 2020-2027
6.12.3 Market share analysis, by country, 2020-2027
6.13 Others
6.13.1 Definition, key trends, growth factors, and opportunities
6.13.2 Market size analysis, by region, 2020-2027
6.13.3 Market share analysis, by country, 2020-2027
6.14 Research Dive Exclusive Insights
6.14.1 Market attractiveness
6.14.2 Competition heatmap
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7. Carbon Fiber Market, By Raw Material
7.1. Overview
7.2 Composite carbon fiber
7.2.1 Definition, key trends, growth factors, and opportunities
7.2.2 Market size analysis, by region, 2020-2027
7.2.3 Market share analysis, by country, 2020-2027
7.3 Non-Composite carbon fiber
7.3.1 Definition, key trends, growth factors, and opportunities
7.3.2 Market size analysis, by region, 2020-2027
7.3.3 Market share analysis, by country, 2020-2027
7.4 Research Dive Exclusive Insights
7.4.1 Market attractiveness
7.4.2 Competition heatmap
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8. Carbon Fiber Market,
8.1. Overview
8.2 Pan-Based carbon fiber
8.2.1 Definition, key trends, growth factors, and opportunities
8.2.2 Market size analysis, by region, 2020-2027
8.2.3 Market share analysis, by country, 2020-2027
8.3 Pitch-Based & Rayon-Based carbon fiber
8.3.1 Definition, key trends, growth factors, and opportunities
8.3.2 Market size analysis, by region, 2020-2027
8.3.3 Market share analysis, by country, 2020-2027
8.4 Research Dive Exclusive Insights
8.4.1 Market attractiveness
8.4.2 Competition heatmap
9. Carbon Fiber Market, By Region
9.1 North America
9.1.1 U.S
9.1.1.1 Market size analysis, By Product, 2020-2027
9.1.1.2 Market size analysis, By Application, 2020-2027
9.1.1.3 Market size analysis, By Raw Material, 2020-2027
9.1.1.4 Market size analysis, , 2020-2027
9.1.2 Canada
9.1.2.1 Market size analysis, By Product, 2020-2027
9.1.2.2 Market size analysis, By Application, 2020-2027
9.1.2.3 Market size analysis, By Raw Material, 2020-2027
9.1.2.4 Market size analysis, , 2020-2027
9.1.3 Mexico
9.1.3.1 Market size analysis, By Product, 2020-2027
9.1.3.2 Market size analysis, By Application, 2020-2027
9.1.3.3 Market size analysis, By Raw Material, 2020-2027
9.1.3.4 Market size analysis, , 2020-2027
9.1.4 Research Dive Exclusive Insights
9.1.4.1 Market attractiveness
9.1.4.2 Competition heatmap
9.2 Europe
9.2.1 Germany
9.2.1.1 Market size analysis, By Product, 2020-2027
9.2.1.2 Market size analysis, By Application, 2020-2027
9.2.1.3 Market size analysis, By Raw Material, 2020-2027
9.2.1.4 Market size analysis, , 2020-2027
9.2.2 UK
9.2.2.1 Market size analysis, By Product, 2020-2027
9.2.2.2 Market size analysis, By Application, 2020-2027
9.2.2.3 Market size analysis, By Raw Material, 2020-2027
9.2.2.4 Market size analysis, , 2020-2027
9.2.3 France
9.2.3.1 Market size analysis, By Product, 2020-2027
9.2.3.2 Market size analysis, By Application, 2020-2027
9.2.3.3 Market size analysis, By Raw Material, 2020-2027
9.2.3.4 Market size analysis, , 2020-2027
9.2.4 Spain
9.2.4.1 Market size analysis, By Product, 2020-2027
9.2.4.2 Market size analysis, By Application, 2020-2027
9.2.4.3 Market size analysis, By Raw Material, 2020-2027
9.2.4.4 Market size analysis, , 2020-2027
9.2.5 Italy
9.2.5.1 Market size analysis, By Product, 2020-2027
9.2.5.2 Market size analysis, By Application, 2020-2027
9.2.5.3 Market size analysis, By Raw Material, 2020-2027
9.2.5.4 Market size analysis, , 2020-2027
9.2.6 Rest of Europe
9.2.6.1 Market size analysis, By Product, 2020-2027
9.2.6.2 Market size analysis, By Application, 2020-2027
9.2.6.3 Market size analysis, By Raw Material, 2020-2027
9.2.6.4 Market size analysis, , 2020-2027
9.2.7 Research Dive Exclusive Insights
9.2.7.1 Market attractiveness
9.2.7.2 Competition heatmap
9.3 Asia-Pacific
9.3.1 China
9.3.1.1 Market size analysis, By Product, 2020-2027
9.3.1.2 Market size analysis, By Application, 2020-2027
9.3.1.3 Market size analysis, By Raw Material, 2020-2027
9.3.1.4 Market size analysis, , 2020-2027
9.3.2 Japan
9.3.2.1 Market size analysis, By Product, 2020-2027
9.3.2.2 Market size analysis, By Application, 2020-2027
9.3.2.3 Market size analysis, By Raw Material, 2020-2027
9.3.2.4 Market size analysis, , 2020-2027
9.3.3 India
9.3.3.1 Market size analysis, By Product, 2020-2027
9.3.3.2 Market size analysis, By Application, 2020-2027
9.3.3.3 Market size analysis, By Raw Material, 2020-2027
9.3.3.4 Market size analysis, , 2020-2027
9.3.4 Australia
9.3.4.1 Market size analysis, By Product, 2020-2027
9.3.4.2 Market size analysis, By Application, 2020-2027
9.3.4.3 Market size analysis, By Raw Material, 2020-2027
9.3.4.4 Market size analysis, , 2020-2027
9.3.5 South Korea
9.3.5.1 Market size analysis, By Product, 2020-2027
9.3.5.2 Market size analysis, By Application, 2020-2027
9.3.5.3 Market size analysis, By Raw Material, 2020-2027
9.3.5.4 Market size analysis, , 2020-2027
9.3.6 Rest of Asia-Pacific
9.3.6.1 Market size analysis, By Product, 2020-2027
9.3.6.2 Market size analysis, By Application, 2020-2027
9.3.6.3 Market size analysis, By Raw Material, 2020-2027
9.3.6.4 Market size analysis, , 2020-2027
9.3.7 Research Dive Exclusive Insights
9.3.7.1 Market attractiveness
9.3.7.2 Competition heatmap
9.4 LAMEA
9.4.1 Brazil
9.4.1.1 Market size analysis, By Product, 2020-2027
9.4.1.2 Market size analysis, By Application, 2020-2027
9.4.1.3 Market size analysis, By Raw Material, 2020-2027
9.4.1.4 Market size analysis, , 2020-2027
9.4.2 Saudi Arabia
9.4.2.1 Market size analysis, By Product, 2020-2027
9.4.2.2 Market size analysis, By Application, 2020-2027
9.4.2.3 Market size analysis, By Raw Material, 2020-2027
9.4.2.4 Market size analysis, , 2020-2027
9.4.3 UAE
9.4.3.1 Market size analysis, By Product, 2020-2027
9.4.3.2 Market size analysis, By Application, 2020-2027
9.4.3.3 Market size analysis, By Raw Material, 2020-2027
9.4.3.4 Market size analysis, , 2020-2027
9.4.4 South Africa
9.4.4.1 Market size analysis, By Product, 2020-2027
9.4.4.2 Market size analysis, By Application, 2020-2027
9.4.4.3 Market size analysis, By Raw Material, 2020-2027
9.4.4.4 Market size analysis, , 2020-2027
9.4.5 Rest of LAMEA
9.4.5.1 Market size analysis, By Product, 2020-2027
9.4.5.2 Market size analysis, By Application, 2020-2027
9.4.5.3 Market size analysis, By Raw Material, 2020-2027
9.4.5.4 Market size analysis, , 2020-2027
9.4.6 Research Dive Exclusive Insights
9.4.6.1 Market attractiveness
9.4.6.2 Competition heatmap
10. Competitive Landscape
10.1 Top winning strategies, 2020-2027
10.1.1 By strategy
10.1.2 By year
10.2 Strategic overview
10.3 Market share analysis, 2020-2027
11. Company Profiles
11.1 DowAksa Advanced 71 Holding B.V.
11.1.1 Overview
11.1.2 Business segments
11.1.3 Product portfolio
11.1.4 Financial performance
11.1.5 Recent developments
11.1.6 SWOT analysis
11.2 Mitsubishi Chemical Holdings Corporation
11.2.1 Overview
11.2.2 Business segments
11.2.3 Product portfolio
11.2.4 Financial performance
11.2.5 Recent developments
11.2.6 SWOT analysis
11.3 Nippon Steel & Sumitomo Metal Corporation
11.3.1 Overview
11.3.2 Business segments
11.3.3 Product portfolio
11.3.4 Financial performance
11.3.5 Recent developments
11.3.6 SWOT analysis
11.4 OJSC SvetlogorskKhimvolokno
11.4.1 Overview
11.4.2 Business segments
11.4.3 Product portfolio
11.4.4 Financial performance
11.4.5 Recent developments
11.4.6 SWOT analysis
11.5 SGL Carbon SE
11.5.1 Overview
11.5.2 Business segments
11.5.3 Product portfolio
11.5.4 Financial performance
11.5.5 Recent developments
11.5.6 SWOT analysis
11.6 Teijin Limited
11.6.1 Overview
11.6.2 Business segments
11.6.3 Product portfolio
11.6.4 Financial performance
11.6.5 Recent developments
11.6.6 SWOT analysis
11.7 Toray Industries Inc.
11.7.1 Overview
11.7.2 Business segments
11.7.3 Product portfolio
11.7.4 Financial performance
11.7.5 Recent developments
11.7.6 SWOT analysis
11.8 Hexcel Corporation
11.8.1 Overview
11.8.2 Business segments
11.8.3 Product portfolio
11.8.4 Financial performance
11.8.5 Recent developments
11.8.6 SWOT analysis
11.9 Solvay SA
11.9.1 Overview
11.9.2 Business segments
11.9.3 Product portfolio
11.9.4 Financial performance
11.9.5 Recent developments
11.9.6 SWOT analysis
11.10 Hyosung Corporation
11.10.1 Overview
11.10.2 Business segments
11.10.3 Product portfolio
11.10.4 Financial performance
11.10.5 Recent developments
11.10.6 SWOT analysis
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