Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Market Synopsis

The Continuous Fiber-Reinforced Thermoplastic Composites (CFRTP) market was estimated at USD 1.07 Billion in the year 2023, is projected to reach a revised size of USD 2.13 Billion by 2032, growing at a CAGR of 7.6% over the analysis period 2024-2032.

The Electric car (EV) enterprise is more and more becoming inquisitive about non-prevent fiber-bolstered thermoplastic composites (CFRTP) as a result of their slight weight, excessive power, and ability for elevated performance. These materials are most advantageous for electric car (EV) programs due to their numerous blessings over conventional steel systems, which consist of reduced weight, advanced electricity efficiency, and superior durability. The rising demand for electric powered motors and the multiplied importance of environmental and sustainability problems are using the adoption of CFRTP composites within the car enterprise. Furthermore, technological advancements in production are riding the growth of the CFRTP marketplace for electric motors, with essential players making an investment in R&D.

• By imparting a lightweight substitute for traditional substances together with steel, CFRTP effectively diminishes the general mass of electrical vehicles. The discount in weight has a positive effect on strength performance and using range, effectively addressing a widespread impediment to the full-size adoption of electrical automobiles.
• Due to their splendid durability and electricity-to-weight ratios, CFRTP composites are perfectly suited for use in electric vehicle structural components. By withstanding severe mechanical stresses and destructive environmental situations, those substances increase the sturdiness and dependability of electric cars.
• CFRTP's manufacturing method offers more suitable design flexibility in comparison to standard substances. The aforementioned adaptability enables the fabrication of complicated geometries and complicated office work, thereby enhancing the aerodynamics and not unusual capability of electric vehicles.
• Traditional materials, such as metals, are inherently less sustainable than thermoplastic composites. CFRTPs reduce the environmental effect of EV manufacturing and cease-of-lifestyles disposal, allowing for recycling and reuse. With continuous advances in textile technology and manufacturing, CFRTP composites are poised to become a major landmark in shaping the destiny of electric propulsion.

Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Trend Analysis

Growing Adoption of Electric Vehicles

• Continuous studies and development endeavors are propelling substantial progress in CFRTP era, thereby augmenting the suitability of those composites for electric powered vehicle (EV) packages. Within the car industry, advancements in cloth composition, processing methodologies, and manufacturing processes are augmenting the skills, value-effectiveness, and expandability of CFRTPs.

• In the pursuit of enhancing the riding range and efficacy of electrical vehicles, CFRTPs are emerging as a crucial enabler. CFRTP composites improve driving dynamics, make bigger battery life, and alleviate electric car (EV) clients' pressing concerns via reducing automobile weight even as preserving structural integrity. This now not handiest satisfies, however additionally improves acceleration and stabilizes the market.
• Increasing call for for CFRTPs in electric powered cars is encouraging a greater great supply chain integration of CFRTPs. Collaborations among fabric providers, authentic gadget producers (OEMs), and component manufacturers are facilitating the integration of CFRTPs into electric vehicle (EV) platforms. These partnerships efficiently ensure the steady meeting of high-quality control requirements throughout the value chain.
• Regulatory tasks that promote sustainable mobility and decrease greenhouse fuel emissions are accelerating the adoption of electric vehicles and CFRTPs. Governments international put in force more stringent gas performance regulations and offer incentives for the utilization of lightweight materials throughout car manufacturing, creating a positive atmosphere for the widespread adoption of CFRTPs inside the electric powered car industry. Moreover, the environmental tolerance and recyclability of thermoplastic composites are according with the sustainability objectives of automotive manufacturers and purchasers, which serves to boost up their implementation in electric motors.

Advancements in Material Science

• Material science advancements are facilitating the adaptation of CFRTPs to satisfy the particular performance demands of electric vehicles. By carefully changing the fiber orientation, resin composition, and additive inclusion, manufacturers can make CFRTPs that are better at improving important mechanical properties for electric vehicle (EV) applications, such as strength, rigidity, and resistance to impact. The capacity to precisely modify material properties not only improves the overall functionality and longevity of electric vehicles but also streamlines the process of designing to minimize weight.
• Manufacturing process innovations are driving significant improvements in CFRTPs' scalability, quality, and production efficiency. Sophisticated methodologies, including automated fiber placement, continuous compression molding, and in-situ polymerization, are facilitating the mass production of superior-satisfactory CFRTP additives for electric vehicles in a cost-effective way. By reducing fabric waste, streamlining production strategies, and decreasing production costs, those trends make CFRTPs greater aggressive with conventional substances consisting of metals.
• Developments in material science are facilitating the integration of supplementary functionalities into CFRTP structures, thereby broadening their applicability beyond structural purposes. CFRTPs can acquire dual functionality by integrating conductive additives, electromagnetic shielding materials, or self-healing polymers. For example, they can function as structural components that incorporate built-in sensors or energy storage systems. By reducing the requirement for supplementary components, this multifunctional integration improves the performance, safety, and efficiency of electrical automobiles, thereby helping within the typical simplification and fee reduction.
• Advancements in material science are addressing the sustainability issues associated with CFRTPs by prioritizing the improvement of recyclability, environmental impact, and end-of-life management. Researchers are running on closed-loop recycling structures, bio-primarily based polymers, and recyclable fibers for CFRTPs. The stop goal is to lessen the quantity of waste and sources used for the duration of the entire lifecycle of a product. These advancements in sustainability are consistent with the growing focus on environmentally favorable materials and circular economy concepts within the automotive area. Consequently, applications involving electric vehicles position CFRTPs as a feasible and ecologically conscious solution.

Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Segment Analysis:

Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Market Segmented based on type and Application

By Type, Active segment is expected to dominate the market during the forecast period

• Continuous Fiber Reinforced Thermoplastic (CFRTP) composites are gaining traction in the electric vehicle (EV) market, offering lightweight yet durable solutions. Aramid Fiber CFRTP Composites, famend for their brilliant impact resistance and toughness, discover programs in EVs in which durability and protection are paramount.
• Glass Fiber CFRTP Composites, while slightly less robust than carbon fiber, provide cost-effective alternatives without compromising significantly on performance.  Aramid Fiber CFRTP Composites, renowned for his or her first-rate impact resistance and toughness, find out applications in EVs wherein durability and safety are paramount.
• The surge in the adoption of CFRTP composites in the EV sector is driven by the need to enhance energy efficiency and extend driving range. These materials make a contribution to lowering basic vehicle weight, thereby improving gasoline performance and battery performance. Additionally, CFRTP composites provide layout flexibility, permitting producers to create complicated shapes and optimize aerodynamics for higher normal performance.
• As the EV market continues to expand, propelled by environmental regulations and consumer demand for sustainable transportation solutions, the demand for CFRTP composites is expected to escalate further. With ongoing advancements in fabric technology and production processes, CFRTP composites are poised to play a massive characteristic in shaping the destiny of electrical mobility.

By Application, EV interior segment held the largest share of xx% in 2023

• Continuous Fiber Reinforced Thermoplastic (CFRTP) composites are revolutionizing both the interior and exterior components of electric vehicles (EVsIn EV interiors, CFRTP composites offer mild-weight but strong alternatives to conventional substances like metals and plastics.
• These composites enhance the overall cabin experience by providing superior aesthetics, comfort, and durability. From dashboard panels to seating systems, CFRTP composites make a contribution to developing modern-day, glossy interiors that align with the premium expectancies of EV purchasers.
• On the exterior front, CFRTP composites play a crucial role in enhancing the aerodynamics, efficiency, and safety of electric vehiclesComponents which includes body panels, hoods, and roofs enjoy the light-weight and excessive-electricity houses of CFRTP composites, permitting EV manufacturers to reap big reductions in car weight even as preserving structural integrity.
• Moreover, CFRTP composites offer opportunities for innovative design elements, allowing for distinctive styling and improved performance in terms of range and energy efficiency.
• As the electric vehicle market continues to expand, driven by environmental concerns and technological advancements, the demand for CFRTP composites for both interior and exterior applications is poised for substantial growth.
• Manufacturers are increasingly recognizing the benefits of CFRTP composites in meeting the evolving needs of electric mobility, thereby positioning these materials as key enablers of the future of automotive design and engineering.

Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Regional Insights:

North America is Expected to Dominate the Market Over the Forecast period

• North America is poised to dominate the fiber reinforced thermoplastic composite market growth especially for electric vehicles during the forecast period This dominance can be attributed to several factors, which include strong factor company related to location, strong knowledge of technological developments and emphasis on development on sustainability.
• Continuous fiber reinforced thermoplastic composites offer numerous benefits for electric vehicles, such as lightweight construction, enhanced mechanical properties, and improved resistance to corrosion and fatigue. These substances are an increasing number of being followed by using using car manufacturers to meet stringent gas overall performance standards, lessen emissions, and decorate everyday automobile typical normal performance.
• In North America, major players in the automotive sector are investing heavily in research and development to innovate new materials and manufacturing processes for electric vehicles. Additionally, favorable authorities hints and incentives aimed at selling the adoption of electrical cars further power the call for for advanced substances like non-stop fiber strengthened thermoplastic composites.
• Moreover, the region boasts a well-established infrastructure for composite material production and a highly skilled workforce, providing a competitive edge in the global marketAs electric powered vehicle adoption maintains to rise global, North America is nicely-positioned to capitalize at the developing demand for non-stop fiber strengthened thermoplastic composites on this region, using in addition growth and innovation within the marketplace.

Active Key Players in the Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Market

• Lanxess
• TenCate
• Celanese
• Polystrand
• Tri-Mack
• AXIA Materials
• US Liner
• Aonix
• Lingol
• Ningbo Huaye Material
• QIYI Tech
• Zhejiang Double Fish Plastics
• Guangzhou Kingfa Carbon Fiber
• SGL Carbon
• Teijin Limited
• Toray Industries
• Mitsubishi Chemical Advanced Materials
• SABIC
• Other Key Players

Key Industry Developments in the Continuous Fiber Reinforced Thermoplastic Composites for Electric Vehicles Market

• June 2022, Avient Corporation has expanded its reSoundTM REC thermoplastic elastomer (TPE) portfolio by adding two additional grades. Shark Solutions manufactures both varieties using recycled polyvinyl butyral (PVB) from automotive glass. Additionally, Shark Solutions will disclose the availability of two new grades of EdgetekTM PKE polyketone (PK) with non-halogen flame retardants (NHFRs).

1. INTRODUCTION
   1. RESEARCH OBJECTIVES
   2. RESEARCH METHODOLOGY
   3. RESEARCH PROCESS
   4. SCOPE AND COVERAGE
      1. Market Definition
      2. Key Questions Answered
   5. MARKET SEGMENTATION
2. EXECUTIVE SUMMARY
3. MARKET OVERVIEW
4. GROWTH OPPORTUNITIES BY SEGMENT
5. MARKET LANDSCAPE
   1. PORTER’S FIVE FORCES ANALYSIS
      1. Bargaining Power Of Supplier
      2. Threat Of New Entrants
      3. Threat Of Substitutes
      4. Competitive Rivalry
      5. Bargaining Power Among Buyers
   2. INDUSTRY VALUE CHAIN ANALYSIS
   3. MARKET DYNAMICS
      1. Drivers
      2. Restraints
      3. Opportunities
      4. Challenges
   4. MARKET TREND ANALYSIS
   5. REGULATORY LANDSCAPE
   6. PESTLE ANALYSIS
   7. PRICE TREND ANALYSIS
   8. PATENT ANALYSIS
   9. TECHNOLOGY EVALUATION
   10. MARKET IMPACT OF THE RUSSIA-UKRAINE WAR
       1. Geopolitical Market Disruptions
       2. Supply Chain Disruptions
       3. Instability in Emerging Markets
   11. ECOSYSTEM
6. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BY TYPE (2017-2032)
   1. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET SNAPSHOT AND GROWTH ENGINE
   2. MARKET OVERVIEW
   3. CARBON FIBER CFRTP COMPOSITES
      1. Introduction and Market Overview
      2. Historic and Forecasted Market Size in Value (2017 – 2032F)
      3. Historic And Forecasted Market Size in Volume (2017 – 2032F)
      4. Key Market Trends, Growth Factors And Opportunities
      5. Geographic Segmentation Analysis
   4. GLASS FIBER CFRTP COMPOSITES
   5. ARAMID FIBER CFRTP COMPOSITES
7. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BY APPLICATION (2017-2032)
   1. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET SNAPSHOT AND GROWTH ENGINE
   2. MARKET OVERVIEW
   3. EV INTERIOR
      1. Introduction And Market Overview
      2. Historic And Forecasted Market Size in Value (2017 – 2032F)
      3. Historic And Forecasted Market Size in Volume (2017 – 2032F)
      4. Key Market Trends, Growth Factors And Opportunities
      5. Geographic Segmentation Analysis
   4. EV EXTERIOR
8. COMPANY PROFILES AND COMPETITIVE ANALYSIS
   1. COMPETITIVE LANDSCAPE
      1. Competitive Positioning
      2. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES Market Share By Manufacturer (2023)
      3. Industry BCG Matrix
      4. Heat Map Analysis
      5. Mergers & Acquisitions
   2. LANXESS
      1. Company Overview
      2. Key Executives
      3. Company Snapshot
      4. Role of the Company in the Market
      5. Sustainability and Social Responsibility
      6. Operating Business Segments
      7. Product Portfolio
      8. Business Performance (Production Volume, Sales Volume, Sales Margin, Production Capacity, Capacity Utilization Rate)
      9. Key Strategic Moves And Recent Developments
      10. SWOT Analysis
   3. TENCATE
   4. CELANESE
   5. POLYSTRAND
   6. TRI-MACK
   7. AXIA MATERIALS
   8. US LINER
   9. AONIX
   10. LINGOL
   11. NINGBO HUAYE MATERIAL
   12. QIYI TECH
   13. ZHEJIANG DOUBLE FISH PLASTICS
   14. GUANGZHOU KINGFA CARBON FIBER
9. GLOBAL CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BY REGION
   1. OVERVIEW
   2. NORTH AMERICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Type
      4. Historic And Forecasted Market Size By Application
      5. Historic And Forecasted Market Size By Country
         1. USA
         2. Canada
         3. Mexico
   3. EASTERN EUROPE
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Russia
         2. Bulgaria
         3. The Czech Republic
         4. Hungary
         5. Poland
         6. Romania
         7. Rest Of Eastern Europe
   4. WESTERN EUROPE
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Germany
         2. United Kingdom
         3. France
         4. The Netherlands
         5. Italy
         6. Spain
         7. Rest Of Western Europe
   5. ASIA PACIFIC
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. China
         2. India
         3. Japan
         4. South Korea
         5. Malaysia
         6. Thailand
         7. Vietnam
         8. The Philippines
         9. Australia
         10. New-Zealand
         11. Rest Of APAC
   6. MIDDLE EAST & AFRICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Turkey
         2. Bahrain
         3. Kuwait
         4. Saudi Arabia
         5. Qatar
         6. UAE
         7. Israel
         8. South Africa
   7. SOUTH AMERICA
      1. Key Market Trends, Growth Factors And Opportunities
      2. Key Manufacturers
      3. Historic And Forecasted Market Size By Segments
      4. Historic And Forecasted Market Size By Country
         1. Brazil
         2. Argentina
         3. Rest of South America
10. INVESTMENT ANALYSIS
11. ANALYST VIEWPOINT AND CONCLUSION
    1. Recommendations and Concluding Analysis
    2. Potential Market Strategies

LIST OF TABLES

TABLE 001. EXECUTIVE SUMMARY
TABLE 002. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BARGAINING POWER OF SUPPLIERS
TABLE 003. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BARGAINING POWER OF CUSTOMERS
TABLE 004. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET COMPETITIVE RIVALRY
TABLE 005. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET THREAT OF NEW ENTRANTS
TABLE 006. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET THREAT OF SUBSTITUTES
TABLE 007. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BY TYPE
TABLE 008. CARBON FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
TABLE 009. GLASS FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
TABLE 010. ARAMID FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
TABLE 011. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET BY APPLICATION
TABLE 012. EV INTERIOR MARKET OVERVIEW (2016-2028)
TABLE 013. EV EXTERIOR MARKET OVERVIEW (2016-2028)
TABLE 014. NORTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY TYPE (2016-2028)
TABLE 015. NORTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY APPLICATION (2016-2028)
TABLE 016. N CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY COUNTRY (2016-2028)
TABLE 017. EUROPE CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY TYPE (2016-2028)
TABLE 018. EUROPE CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY APPLICATION (2016-2028)
TABLE 019. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY COUNTRY (2016-2028)
TABLE 020. ASIA PACIFIC CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY TYPE (2016-2028)
TABLE 021. ASIA PACIFIC CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY APPLICATION (2016-2028)
TABLE 022. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY COUNTRY (2016-2028)
TABLE 023. MIDDLE EAST & AFRICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY TYPE (2016-2028)
TABLE 024. MIDDLE EAST & AFRICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY APPLICATION (2016-2028)
TABLE 025. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY COUNTRY (2016-2028)
TABLE 026. SOUTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY TYPE (2016-2028)
TABLE 027. SOUTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY APPLICATION (2016-2028)
TABLE 028. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET, BY COUNTRY (2016-2028)
TABLE 029. LANXESS: SNAPSHOT
TABLE 030. LANXESS: BUSINESS PERFORMANCE
TABLE 031. LANXESS: PRODUCT PORTFOLIO
TABLE 032. LANXESS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 032. TENCATE: SNAPSHOT
TABLE 033. TENCATE: BUSINESS PERFORMANCE
TABLE 034. TENCATE: PRODUCT PORTFOLIO
TABLE 035. TENCATE: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 035. CELANESE: SNAPSHOT
TABLE 036. CELANESE: BUSINESS PERFORMANCE
TABLE 037. CELANESE: PRODUCT PORTFOLIO
TABLE 038. CELANESE: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 038. POLYSTRAND: SNAPSHOT
TABLE 039. POLYSTRAND: BUSINESS PERFORMANCE
TABLE 040. POLYSTRAND: PRODUCT PORTFOLIO
TABLE 041. POLYSTRAND: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 041. TRI-MACK: SNAPSHOT
TABLE 042. TRI-MACK: BUSINESS PERFORMANCE
TABLE 043. TRI-MACK: PRODUCT PORTFOLIO
TABLE 044. TRI-MACK: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 044. AXIA MATERIALS: SNAPSHOT
TABLE 045. AXIA MATERIALS: BUSINESS PERFORMANCE
TABLE 046. AXIA MATERIALS: PRODUCT PORTFOLIO
TABLE 047. AXIA MATERIALS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 047. US LINER: SNAPSHOT
TABLE 048. US LINER: BUSINESS PERFORMANCE
TABLE 049. US LINER: PRODUCT PORTFOLIO
TABLE 050. US LINER: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 050. AONIX: SNAPSHOT
TABLE 051. AONIX: BUSINESS PERFORMANCE
TABLE 052. AONIX: PRODUCT PORTFOLIO
TABLE 053. AONIX: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 053. LINGOL: SNAPSHOT
TABLE 054. LINGOL: BUSINESS PERFORMANCE
TABLE 055. LINGOL: PRODUCT PORTFOLIO
TABLE 056. LINGOL: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 056. NINGBO HUAYE MATERIAL: SNAPSHOT
TABLE 057. NINGBO HUAYE MATERIAL: BUSINESS PERFORMANCE
TABLE 058. NINGBO HUAYE MATERIAL: PRODUCT PORTFOLIO
TABLE 059. NINGBO HUAYE MATERIAL: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 059. QIYI TECH: SNAPSHOT
TABLE 060. QIYI TECH: BUSINESS PERFORMANCE
TABLE 061. QIYI TECH: PRODUCT PORTFOLIO
TABLE 062. QIYI TECH: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 062. ZHEJIANG DOUBLE FISH PLASTICS: SNAPSHOT
TABLE 063. ZHEJIANG DOUBLE FISH PLASTICS: BUSINESS PERFORMANCE
TABLE 064. ZHEJIANG DOUBLE FISH PLASTICS: PRODUCT PORTFOLIO
TABLE 065. ZHEJIANG DOUBLE FISH PLASTICS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 065. GUANGZHOU KINGFA CARBON FIBER: SNAPSHOT
TABLE 066. GUANGZHOU KINGFA CARBON FIBER: BUSINESS PERFORMANCE
TABLE 067. GUANGZHOU KINGFA CARBON FIBER: PRODUCT PORTFOLIO
TABLE 068. GUANGZHOU KINGFA CARBON FIBER: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 068. OTHER MAJOR PLAYERS: SNAPSHOT
TABLE 069. OTHER MAJOR PLAYERS: BUSINESS PERFORMANCE
TABLE 070. OTHER MAJOR PLAYERS: PRODUCT PORTFOLIO
TABLE 071. OTHER MAJOR PLAYERS: KEY STRATEGIC MOVES AND DEVELOPMENTS

LIST OF FIGURES

FIGURE 001. YEARS CONSIDERED FOR ANALYSIS
FIGURE 002. SCOPE OF THE STUDY
FIGURE 003. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY REGIONS
FIGURE 004. PORTER'S FIVE FORCES ANALYSIS
FIGURE 005. BARGAINING POWER OF SUPPLIERS
FIGURE 006. COMPETITIVE RIVALRYFIGURE 007. THREAT OF NEW ENTRANTS
FIGURE 008. THREAT OF SUBSTITUTES
FIGURE 009. VALUE CHAIN ANALYSIS
FIGURE 010. PESTLE ANALYSIS
FIGURE 011. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY TYPE
FIGURE 012. CARBON FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
FIGURE 013. GLASS FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
FIGURE 014. ARAMID FIBER CFRTP COMPOSITES MARKET OVERVIEW (2016-2028)
FIGURE 015. CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY APPLICATION
FIGURE 016. EV INTERIOR MARKET OVERVIEW (2016-2028)
FIGURE 017. EV EXTERIOR MARKET OVERVIEW (2016-2028)
FIGURE 018. NORTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 019. EUROPE CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 020. ASIA PACIFIC CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 021. MIDDLE EAST & AFRICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 022. SOUTH AMERICA CONTINUOUS FIBER REINFORCED THERMOPLASTIC COMPOSITES FOR ELECTRIC VEHICLES MARKET OVERVIEW BY COUNTRY (2016-2028)