▶ 調査レポート

風力エネルギー用カーボンファイバーの世界市場2023年:48K、24K、12K以下

• 英文タイトル:Global Carbon Fiber for Wind Energy Market Research Report 2023

QYResearchが調査・発行した産業分析レポートです。風力エネルギー用カーボンファイバーの世界市場2023年:48K、24K、12K以下 / Global Carbon Fiber for Wind Energy Market Research Report 2023 / MRC23Q30977資料のイメージです。• レポートコード:MRC23Q30977
• 出版社/出版日:QYResearch / 2023年3月
• レポート形態:英文、PDF、89ページ
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• 産業分類:エネルギー&電力
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レポート概要
本調査レポートは世界の風力エネルギー用カーボンファイバー市場について調査・分析し、世界の風力エネルギー用カーボンファイバー市場概要、メーカー別競争状況、地域別生産量、地域別消費量、タイプ別セグメント分析(48K、24K、12K以下)、用途別セグメント分析(陸上風力タービンブレード、洋上風力タービンブレード)、主要企業のプロファイル、市場動向などに関する情報を掲載しています。主要企業としては、Toray Industries、SGL Carbon、Tejin、Mitsubishi Chemical、Hexcel、FPC、DowAksa、Zhongfu Shenyingなどが含まれています。世界の風力エネルギー用カーボンファイバー市場は、2022年にXXX米ドル、2029年にはXXX米ドルに達すると予測され、予測期間中の年平均成長率はXXX%です。COVID-19とロシア・ウクライナ戦争による影響は、風力エネルギー用カーボンファイバー市場規模を推定する際に考慮しました。本レポートは、風力エネルギー用カーボンファイバーの世界市場を定量的・定性的な分析により包括的に提示し、読者がビジネス/成長戦略を策定し、市場競争状況を把握し、現在の市場における自社のポジションを分析し、風力エネルギー用カーボンファイバーに関するビジネス上の意思決定に役立てることを目的としています。

・風力エネルギー用カーボンファイバー市場の概要
- 製品の定義
- 風力エネルギー用カーボンファイバーのタイプ別セグメント
- 世界の風力エネルギー用カーボンファイバー市場成長率のタイプ別分析(48K、24K、12K以下)
- 風力エネルギー用カーボンファイバーの用途別セグメント
- 世界の風力エネルギー用カーボンファイバー市場成長率の用途別分析(陸上風力タービンブレード、洋上風力タービンブレード)
- 世界市場の成長展望
- 世界の風力エネルギー用カーボンファイバー生産量の推定と予測(2018年-2029年)
- 世界の風力エネルギー用カーボンファイバー生産能力の推定と予測(2018年-2029年)
- 風力エネルギー用カーボンファイバーの平均価格の推定と予測(2018年-2029年)
- 前提条件と制限事項

・メーカー別競争状況
- メーカー別市場シェア
- 世界の主要メーカー、業界ランキング分析
- メーカー別平均価格
- 風力エネルギー用カーボンファイバー市場の競争状況およびトレンド

・風力エネルギー用カーボンファイバーの地域別生産量
- 風力エネルギー用カーボンファイバー生産量の地域別推計と予測(2018年-2029年)
- 地域別風力エネルギー用カーボンファイバー価格分析(2018年-2023年)
- 北米の風力エネルギー用カーボンファイバー生産規模(2018年-2029年)
- ヨーロッパの風力エネルギー用カーボンファイバー生産規模(2018年-2029年)
- 中国の風力エネルギー用カーボンファイバー生産規模(2018年-2029年)
- 日本の風力エネルギー用カーボンファイバー生産規模(2018年-2029年)
- 韓国の風力エネルギー用カーボンファイバー生産規模(2018年-2029年)
- インドの風力エネルギー用カーボンファイバー生産規模(2018年-2029年)

・風力エネルギー用カーボンファイバーの地域別消費量
- 風力エネルギー用カーボンファイバー消費量の地域別推計と予測(2018年-2029年)
- 北米の風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- アメリカの風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- ヨーロッパの風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- アジア太平洋の風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- 中国の風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- 日本の風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- 韓国の風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- 東南アジアの風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- インドの風力エネルギー用カーボンファイバー消費量(2018年-2029年)
- 中南米・中東・アフリカの風力エネルギー用カーボンファイバー消費量(2018年-2029年)

・タイプ別セグメント:48K、24K、12K以下
- 世界の風力エネルギー用カーボンファイバーのタイプ別生産量(2018年-2023年)
- 世界の風力エネルギー用カーボンファイバーのタイプ別生産量(2024年-2029年)
- 世界の風力エネルギー用カーボンファイバーのタイプ別価格

・用途別セグメント:陸上風力タービンブレード、洋上風力タービンブレード
- 世界の風力エネルギー用カーボンファイバーの用途別生産量(2018年-2023年)
- 世界の風力エネルギー用カーボンファイバーの用途別生産量(2024年-2029年)
- 世界の風力エネルギー用カーボンファイバーの用途別価格

・主要企業のプロファイル:企業情報、製品ポートフォリオ、生産量、価格、動向
Toray Industries、SGL Carbon、Tejin、Mitsubishi Chemical、Hexcel、FPC、DowAksa、Zhongfu Shenying

・産業チェーンと販売チャネルの分析
- 風力エネルギー用カーボンファイバー産業チェーン分析
- 風力エネルギー用カーボンファイバーの主要原材料
- 風力エネルギー用カーボンファイバーの販売チャネル
- 風力エネルギー用カーボンファイバーのディストリビューター
- 風力エネルギー用カーボンファイバーの主要顧客

・風力エネルギー用カーボンファイバー市場ダイナミクス
- 風力エネルギー用カーボンファイバーの業界動向
- 風力エネルギー用カーボンファイバー市場の成長ドライバ、課題、阻害要因

・調査成果および結論

・調査方法とデータソース

Carbon fiber (CF) is a material consisting of fibers that are 92% or greater carbon. Each CF filament has a diameter on the order of 5 microns to 15 microns. Numerous parallel filaments are typically grouped together into what is referred to as a CF tow. The term tow count refers to the number of filaments per tow and is often expressed with nomenclature such as 24K where the letter K designates the number 1,000. Thus, 24K describes a CF tow having 24,000 filaments. CF having 24,000 or less filaments is referred to as small tow. The most common small-tow product forms are 1K, 3K, 6K, 12K, and 24K tows. Tows having more than 24K filaments are referred to as large tow, with 48K and 50K tows being common large-tow product forms. However, tows with multiple hundreds of thousands filaments are also available. Smalltow material properties, including higher tensile strength and higher modulus when laid or woven into a composite, are superior to large tow and consequently predominately used in industries such as aerospace where high performance is demanded. However, small-tow fibers are more costly than high tow fibers. Another CF classification is by precursor material, which is the multi-element starting material subjected to heat treatment so that nearly all non-carbon atoms are ejected and only carbon remains. Precursor materials include rayon, pitch, and polyacrylonitrile (PAN). The latter, PAN, has more than 96% of the CF market due to its cost-effectiveness and the quality of the fiber produced. Carbon fiber can also be classified as one of three modulus (i.e., a substance’s resistance to being deformed elastically when force is applied to it) groups: standard modulus, intermediate modulus, and high modulus as shown in Table 1. Standard modulus CF has 80%–90% of total market today. Carbon fiber cost has strong positive correlation with modulus. Carbon fiber is also classified by tensile strength, which can be loosely correlated with modulus. Table 1 shows that high-modulus and ultra-high-modulus CF can have lower tensile strength than intermediate modulus as strength declines when undergoing the processes required to achieve high- and ultra-high modulus. Other notable physical properties of carbon fibers include light weight (1.78 grams per cubic centimeter [gm/cc] vs. 8.1 gm/cc for traditional steel), good fatigue resistance and electrical conductivity, chemical inertness, and low coefficient of thermal expansion.
Highlights
The global Carbon Fiber for Wind Energy market was valued at US$ 611.2 million in 2022 and is anticipated to reach US$ 940.8 million by 2029, witnessing a CAGR of 6.2% during the forecast period 2023-2029. The influence of COVID-19 and the Russia-Ukraine War were considered while estimating market sizes.
Global key players of Carbon Fiber for Wind Energy include Toray Industries and SGL Carbon, etc. Global top two manufacturers hold a share over 60%. United States is the largest producer of Carbon Fiber for Wind Energy, with a share over 40%, followed by Europe and China.
Report Scope
This report aims to provide a comprehensive presentation of the global market for Carbon Fiber for Wind Energy, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Carbon Fiber for Wind Energy.
The Carbon Fiber for Wind Energy market size, estimations, and forecasts are provided in terms of output/shipments (MT) and revenue ($ millions), considering 2022 as the base year, with history and forecast data for the period from 2018 to 2029. This report segments the global Carbon Fiber for Wind Energy market comprehensively. Regional market sizes, concerning products by type, by application and by players, are also provided.
For a more in-depth understanding of the market, the report provides profiles of the competitive landscape, key competitors, and their respective market ranks. The report also discusses technological trends and new product developments.
The report will help the Carbon Fiber for Wind Energy manufacturers, new entrants, and industry chain related companies in this market with information on the revenues, production, and average price for the overall market and the sub-segments across the different segments, by company, by type, by application, and by regions.
By Company
Toray Industries
SGL Carbon
Tejin
Mitsubishi Chemical
Hexcel
FPC
DowAksa
Zhongfu Shenying
Segment by Type
48K
24K
Below 12K
Segment by Application
Onshore Wind Turbine Blades
Offshore Wind Turbine Blades
Production by Region
United States
Europe
China
Japan
Consumption by Region
North America
United States
Canada
Europe
Germany
France
U.K.
Italy
Russia
Asia-Pacific
China
Japan
South Korea
India
Australia
China Taiwan
Indonesia
Thailand
Malaysia
Latin America
Mexico
Brazil
Argentina
Core Chapters
Chapter 1: Introduces the report scope of the report, executive summary of different market segments (by region, by type, by application, etc), including the market size of each market segment, future development potential, and so on. It offers a high-level view of the current state of the market and its likely evolution in the short to mid-term, and long term.
Chapter 2: Detailed analysis of Carbon Fiber for Wind Energy manufacturers competitive landscape, price, production and value market share, latest development plan, merger, and acquisition information, etc.
Chapter 3: Production/output, value of Carbon Fiber for Wind Energy by region/country. It provides a quantitative analysis of the market size and development potential of each region in the next six years.
Chapter 4: Consumption of Carbon Fiber for Wind Energy in regional level and country level. It provides a quantitative analysis of the market size and development potential of each region and its main countries and introduces the market development, future development prospects, market space, and production of each country in the world.
Chapter 5: Provides the analysis of various market segments by type, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different market segments.
Chapter 6: Provides the analysis of various market segments by application, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different downstream markets.
Chapter 7: Provides profiles of key players, introducing the basic situation of the key companies in the market in detail, including product production/output, value, price, gross margin, product introduction, recent development, etc.
Chapter 8: Analysis of industrial chain, including the upstream and downstream of the industry.
Chapter 9: Introduces the market dynamics, latest developments of the market, the driving factors and restrictive factors of the market, the challenges and risks faced by manufacturers in the industry, and the analysis of relevant policies in the industry.
Chapter 10: The main points and conclusions of the report.

レポート目次

1 Carbon Fiber for Wind Energy Market Overview
1.1 Product Definition
1.2 Carbon Fiber for Wind Energy Segment by Type
1.2.1 Global Carbon Fiber for Wind Energy Market Value Growth Rate Analysis by Type 2022 VS 2029
1.2.2 48K
1.2.3 24K
1.2.4 Below 12K
1.3 Carbon Fiber for Wind Energy Segment by Application
1.3.1 Global Carbon Fiber for Wind Energy Market Value Growth Rate Analysis by Application: 2022 VS 2029
1.3.2 Onshore Wind Turbine Blades
1.3.3 Offshore Wind Turbine Blades
1.4 Global Market Growth Prospects
1.4.1 Global Carbon Fiber for Wind Energy Production Value Estimates and Forecasts (2018-2029)
1.4.2 Global Carbon Fiber for Wind Energy Production Capacity Estimates and Forecasts (2018-2029)
1.4.3 Global Carbon Fiber for Wind Energy Production Estimates and Forecasts (2018-2029)
1.4.4 Global Carbon Fiber for Wind Energy Market Average Price Estimates and Forecasts (2018-2029)
1.5 Assumptions and Limitations
2 Market Competition by Manufacturers
2.1 Global Carbon Fiber for Wind Energy Production Market Share by Manufacturers (2018-2023)
2.2 Global Carbon Fiber for Wind Energy Production Value Market Share by Manufacturers (2018-2023)
2.3 Global Key Players of Carbon Fiber for Wind Energy, Industry Ranking, 2021 VS 2022 VS 2023
2.4 Global Carbon Fiber for Wind Energy Market Share by Company Type (Tier 1, Tier 2 and Tier 3)
2.5 Global Carbon Fiber for Wind Energy Average Price by Manufacturers (2018-2023)
2.6 Global Key Manufacturers of Carbon Fiber for Wind Energy, Manufacturing Base Distribution and Headquarters
2.7 Global Key Manufacturers of Carbon Fiber for Wind Energy, Product Offered and Application
2.8 Global Key Manufacturers of Carbon Fiber for Wind Energy, Date of Enter into This Industry
2.9 Carbon Fiber for Wind Energy Market Competitive Situation and Trends
2.9.1 Carbon Fiber for Wind Energy Market Concentration Rate
2.9.2 Global 5 and 10 Largest Carbon Fiber for Wind Energy Players Market Share by Revenue
2.10 Mergers & Acquisitions, Expansion
3 Carbon Fiber for Wind Energy Production by Region
3.1 Global Carbon Fiber for Wind Energy Production Value Estimates and Forecasts by Region: 2018 VS 2022 VS 2029
3.2 Global Carbon Fiber for Wind Energy Production Value by Region (2018-2029)
3.2.1 Global Carbon Fiber for Wind Energy Production Value Market Share by Region (2018-2023)
3.2.2 Global Forecasted Production Value of Carbon Fiber for Wind Energy by Region (2024-2029)
3.3 Global Carbon Fiber for Wind Energy Production Estimates and Forecasts by Region: 2018 VS 2022 VS 2029
3.4 Global Carbon Fiber for Wind Energy Production by Region (2018-2029)
3.4.1 Global Carbon Fiber for Wind Energy Production Market Share by Region (2018-2023)
3.4.2 Global Forecasted Production of Carbon Fiber for Wind Energy by Region (2024-2029)
3.5 Global Carbon Fiber for Wind Energy Market Price Analysis by Region (2018-2023)
3.6 Global Carbon Fiber for Wind Energy Production and Value, Year-over-Year Growth
3.6.1 United States Carbon Fiber for Wind Energy Production Value Estimates and Forecasts (2018-2029)
3.6.2 Europe Carbon Fiber for Wind Energy Production Value Estimates and Forecasts (2018-2029)
3.6.3 China Carbon Fiber for Wind Energy Production Value Estimates and Forecasts (2018-2029)
3.6.4 Japan Carbon Fiber for Wind Energy Production Value Estimates and Forecasts (2018-2029)
4 Carbon Fiber for Wind Energy Consumption by Region
4.1 Global Carbon Fiber for Wind Energy Consumption Estimates and Forecasts by Region: 2018 VS 2022 VS 2029
4.2 Global Carbon Fiber for Wind Energy Consumption by Region (2018-2029)
4.2.1 Global Carbon Fiber for Wind Energy Consumption by Region (2018-2023)
4.2.2 Global Carbon Fiber for Wind Energy Forecasted Consumption by Region (2024-2029)
4.3 North America
4.3.1 North America Carbon Fiber for Wind Energy Consumption Growth Rate by Country: 2018 VS 2022 VS 2029
4.3.2 North America Carbon Fiber for Wind Energy Consumption by Country (2018-2029)
4.3.3 United States
4.3.4 Canada
4.4 Europe
4.4.1 Europe Carbon Fiber for Wind Energy Consumption Growth Rate by Country: 2018 VS 2022 VS 2029
4.4.2 Europe Carbon Fiber for Wind Energy Consumption by Country (2018-2029)
4.4.3 Germany
4.4.4 France
4.4.5 U.K.
4.4.6 Italy
4.4.7 Russia
4.5 Asia Pacific
4.5.1 Asia Pacific Carbon Fiber for Wind Energy Consumption Growth Rate by Region: 2018 VS 2022 VS 2029
4.5.2 Asia Pacific Carbon Fiber for Wind Energy Consumption by Region (2018-2029)
4.5.3 China
4.5.4 Japan
4.5.5 South Korea
4.5.6 China Taiwan
4.5.7 Southeast Asia
4.5.8 India
4.6 Latin America, Middle East & Africa
4.6.1 Latin America, Middle East & Africa Carbon Fiber for Wind Energy Consumption Growth Rate by Country: 2018 VS 2022 VS 2029
4.6.2 Latin America, Middle East & Africa Carbon Fiber for Wind Energy Consumption by Country (2018-2029)
4.6.3 Mexico
4.6.4 Brazil
4.6.5 Turkey
5 Segment by Type
5.1 Global Carbon Fiber for Wind Energy Production by Type (2018-2029)
5.1.1 Global Carbon Fiber for Wind Energy Production by Type (2018-2023)
5.1.2 Global Carbon Fiber for Wind Energy Production by Type (2024-2029)
5.1.3 Global Carbon Fiber for Wind Energy Production Market Share by Type (2018-2029)
5.2 Global Carbon Fiber for Wind Energy Production Value by Type (2018-2029)
5.2.1 Global Carbon Fiber for Wind Energy Production Value by Type (2018-2023)
5.2.2 Global Carbon Fiber for Wind Energy Production Value by Type (2024-2029)
5.2.3 Global Carbon Fiber for Wind Energy Production Value Market Share by Type (2018-2029)
5.3 Global Carbon Fiber for Wind Energy Price by Type (2018-2029)
6 Segment by Application
6.1 Global Carbon Fiber for Wind Energy Production by Application (2018-2029)
6.1.1 Global Carbon Fiber for Wind Energy Production by Application (2018-2023)
6.1.2 Global Carbon Fiber for Wind Energy Production by Application (2024-2029)
6.1.3 Global Carbon Fiber for Wind Energy Production Market Share by Application (2018-2029)
6.2 Global Carbon Fiber for Wind Energy Production Value by Application (2018-2029)
6.2.1 Global Carbon Fiber for Wind Energy Production Value by Application (2018-2023)
6.2.2 Global Carbon Fiber for Wind Energy Production Value by Application (2024-2029)
6.2.3 Global Carbon Fiber for Wind Energy Production Value Market Share by Application (2018-2029)
6.3 Global Carbon Fiber for Wind Energy Price by Application (2018-2029)
7 Key Companies Profiled
7.1 Toray Industries
7.1.1 Toray Industries Carbon Fiber for Wind Energy Corporation Information
7.1.2 Toray Industries Carbon Fiber for Wind Energy Product Portfolio
7.1.3 Toray Industries Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.1.4 Toray Industries Main Business and Markets Served
7.1.5 Toray Industries Recent Developments/Updates
7.2 SGL Carbon
7.2.1 SGL Carbon Carbon Fiber for Wind Energy Corporation Information
7.2.2 SGL Carbon Carbon Fiber for Wind Energy Product Portfolio
7.2.3 SGL Carbon Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.2.4 SGL Carbon Main Business and Markets Served
7.2.5 SGL Carbon Recent Developments/Updates
7.3 Tejin
7.3.1 Tejin Carbon Fiber for Wind Energy Corporation Information
7.3.2 Tejin Carbon Fiber for Wind Energy Product Portfolio
7.3.3 Tejin Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.3.4 Tejin Main Business and Markets Served
7.3.5 Tejin Recent Developments/Updates
7.4 Mitsubishi Chemical
7.4.1 Mitsubishi Chemical Carbon Fiber for Wind Energy Corporation Information
7.4.2 Mitsubishi Chemical Carbon Fiber for Wind Energy Product Portfolio
7.4.3 Mitsubishi Chemical Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.4.4 Mitsubishi Chemical Main Business and Markets Served
7.4.5 Mitsubishi Chemical Recent Developments/Updates
7.5 Hexcel
7.5.1 Hexcel Carbon Fiber for Wind Energy Corporation Information
7.5.2 Hexcel Carbon Fiber for Wind Energy Product Portfolio
7.5.3 Hexcel Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.5.4 Hexcel Main Business and Markets Served
7.5.5 Hexcel Recent Developments/Updates
7.6 FPC
7.6.1 FPC Carbon Fiber for Wind Energy Corporation Information
7.6.2 FPC Carbon Fiber for Wind Energy Product Portfolio
7.6.3 FPC Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.6.4 FPC Main Business and Markets Served
7.6.5 FPC Recent Developments/Updates
7.7 DowAksa
7.7.1 DowAksa Carbon Fiber for Wind Energy Corporation Information
7.7.2 DowAksa Carbon Fiber for Wind Energy Product Portfolio
7.7.3 DowAksa Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.7.4 DowAksa Main Business and Markets Served
7.7.5 DowAksa Recent Developments/Updates
7.8 Zhongfu Shenying
7.8.1 Zhongfu Shenying Carbon Fiber for Wind Energy Corporation Information
7.8.2 Zhongfu Shenying Carbon Fiber for Wind Energy Product Portfolio
7.8.3 Zhongfu Shenying Carbon Fiber for Wind Energy Production, Value, Price and Gross Margin (2018-2023)
7.8.4 Zhongfu Shenying Main Business and Markets Served
7.7.5 Zhongfu Shenying Recent Developments/Updates
8 Industry Chain and Sales Channels Analysis
8.1 Carbon Fiber for Wind Energy Industry Chain Analysis
8.2 Carbon Fiber for Wind Energy Key Raw Materials
8.2.1 Key Raw Materials
8.2.2 Raw Materials Key Suppliers
8.3 Carbon Fiber for Wind Energy Production Mode & Process
8.4 Carbon Fiber for Wind Energy Sales and Marketing
8.4.1 Carbon Fiber for Wind Energy Sales Channels
8.4.2 Carbon Fiber for Wind Energy Distributors
8.5 Carbon Fiber for Wind Energy Customers
9 Carbon Fiber for Wind Energy Market Dynamics
9.1 Carbon Fiber for Wind Energy Industry Trends
9.2 Carbon Fiber for Wind Energy Market Drivers
9.3 Carbon Fiber for Wind Energy Market Challenges
9.4 Carbon Fiber for Wind Energy Market Restraints
10 Research Finding and Conclusion
11 Methodology and Data Source
11.1 Methodology/Research Approach
11.1.1 Research Programs/Design
11.1.2 Market Size Estimation
11.1.3 Market Breakdown and Data Triangulation
11.2 Data Source
11.2.1 Secondary Sources
11.2.2 Primary Sources
11.3 Author List
11.4 Disclaimer



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