Automotive Composite Body Panel Market Size by Manufacturing Process, Material Type, End User, Region, Industry-Wide Analysis, Competitive Landscape Assessment & Long-Term Forecast to 2032
13%
CAGR (2026-2032)
12.37 USD Bn.
Market Size
302
Report Pages
157
Market Tables
Overview
The Automotive Composite Body Panel Market size was valued at USD 12.37 Billion in 2025 and the total Automotive Composite Body Panel revenue is expected to grow at a CAGR of 13% from 2025 to 2032, reaching nearly USD 29.10 Billion by 2032.
Global Automotive Composite Body Panel Market: Overview
Composite Body panels are made up of carbon, glass, and base matrix materials. These materials are light in weight, so it reduces over all weight of vehicle and are high performance material. This material is widely used in manufacturing of car bumpers and other exterior parts. Also, for Interior purpose this material is used like in dashboard and inner door assembly.
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Automakers are trying to make more lightweight vehicle owing to the strict regulation on vehicle emission, this vehicle emission can be reduced by reducing overall weight of vehicle. Europe and North America (specially the United States) are the major regions compelling manufacturers to reduce vehicle weight to meet their norms. These stringent vehicle norms are driving the global market of composite body panel market. Along with that customer also getting aware of pollution control and customers awareness towards reduction of pollution leading customers to demand for less polluting vehicles increasing market for Global Automotive Composite Body Panel Market.
Trend in Perimeter Product:
Increasing rate of accident due to increased traffic and violation of traffic rules have increased. These cause damage to vehicles, which results in dents. This factor directly impact on the factor of using Composite body panel instead of traditional one.
Easily available finance and EMI facility, as well as the car companies also launching leasing program will drive the composite body panel market.
Increasing demand for lightweight vehicle and passenger vehicle is increasing growth of global automotive composite body panel market.
Vehicle emission norms are getting severe due to this vehicle manufacturers and are reducing vehicle weight and the composite fiber is a good option for that which will provide good strength along with reduction of weight.
Global Automotive Composite Body Panel Market: Carbon Fiber Panel
Carbon Fiber is composite material which is six times lighter in weight than steel and six times stronger. Carbon Fiber are 5-10 micrometer in diameter made-up of carbon atoms. This material offers advantages like high stiffness, lightweight, high chemical resistance, high tensile strength, low thermal expansion, and high tolerance to temperature.
Global Automotive Composite Body Panel Market: Regional Overview
Global Automotive Composite Body Panel market is segmented into Asia Pacific, North America, Europe, South America, and Middle East & Africa. Among these regions, Europe and North American region are the major market for luxurious vehicle and due to high disposable income. Composite body penal have huge market in future. Carbon fiber body panel are expensive and premium vehicle uses it as good choice in replacement of steel. APAC region is also showing good growth due to passenger vehicle sales volume and Composite body penal manufacturing technique is also improving to make it more affordable.
Segmentation:
The Global Automotive Composite Body Panel Market is segmented by Manufacturing Process (Lay-up Process, Compression Molding Process, Resin Transfer Molding (RTM) Process, Filament Winding Process, Injection Molding Process, Pultrusion Process, Vacuum Infusion, Other Processes), by Material Type (Polymer Matrix Composite (PMC), Carbon Fiber Reinforced Plastic (CFRP), Glass Fiber Reinforced Plastic (GFRP), Natural Fiber Reinforced Plastic (NFRP), Metal Matrix Composite (MMC), Ceramic Matrix Composite (CMC)), by End User (Passenger Vehicles, Medium Commercial Vehicles, Heavy Duty Commercial Vehicles, Light Duty Commercial Vehicles), and Region (North America, Europe, Middle East & Africa, South America, Asia Pacific).
In Europe regions, countries like Germany, France, Italy, and UK are expected to raise growth rate in the forecasted period. The Asia Pacific has dominance over passenger vehicle market owing to numbers of vehicle production. This leads to market growth of automotive Composite penal market.
The report also helps in understanding Market dynamics, structure by analyzing the market segments and projects the Market size. Clear representation of competitive analysis of key players by Application, price, financial position, Product portfolio, growth strategies, and regional presence in the Market make the report investor’s guide.
Scope of the Automotive Composite Body Panel Market: Inquire before buying
| Automotive Composite Body Panel Market | |||
|---|---|---|---|
| Report Coverage | Details | ||
| Base Year: | 2025 | Forecast Period: | 2026-2032 |
| Historical Data: | 2020 to 2025 | Market Size in 2025: | USD 12.37 Bn. |
| Forecast Period 2026 to 2032 CAGR: | 13% | Market Size in 2032: | USD 29.10 Bn. |
| Segments Covered: | by Manufacturing Process | Lay-up Process Compression Molding Process Resin Transfer Molding (RTM) Process Filament Winding Process Injection Molding Process Pultrusion Process Vacuum Infusion Other Processes |
|
| by Material Type | Polymer Matrix Composite (PMC) Carbon Fiber Reinforced Plastic (CFRP) Glass Fiber Reinforced Plastic (GFRP) Natural Fiber Reinforced Plastic (NFRP) Metal Matrix Composite (MMC) Ceramic Matrix Composite (CMC) |
||
| by End User | Passenger Vehicles Medium Commercial Vehicles Heavy Duty Commercial Vehicles Light Duty Commercial Vehicles |
||
Automotive Composite Body Panel Market, by Region
North America (United States, Canada and Mexico)
Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe)
Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC)
Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest)
South America (Brazil, Argetina and Rest of South America)
Key players operating in Automotive Composite Body Panel Market
1. Abc group, inc.
2. Austem company ltd.
3. Changshu huiyi mechanical & electrical co., ltd.
4. Flex-n-gate corporation
5. Gestamp
6. Gordon auto body parts co., ltd.
7. Hwashim
8. Kuante auto parts manufacture co., limited
9. Magna international inc.
10. Plastic omnium
11. Stick industry co., ltd.
Frequently Asked Questions:
1. What is the growth rate of Global Automotive Composite Body Panel Market?
Ans: The Global market is growing at a CAGR of 13 % during forecasting period 2025-2032.
2. What is scope of the Global Automotive Composite Body Panel Market report?
Ans: Global market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period.
3. What was the Global Automotive Composite Body Panel Market size in 2025?
Ans: The Global market was valued at USD 12.37 Bn. In 2025.
4. What is the study period of this Market?
Ans: The Global market is studied from 2025 to 2032.
Table of Contents
Global Automotive Composite Body Panel Market
1. Preface
1.1. Report Scope and Market Segmentation
1.2. Research Highlights
1.3. Research Objectives
2. Assumptions and Research Methodology
2.1. Report Assumptions
2.2. Abbreviations
2.3. Research Methodology
2.3.1. Secondary Research
2.3.1.1. Secondary data
2.3.1.2. Secondary Sources
2.3.2. Primary Research
2.3.2.1. Data from Primary Sources
2.3.2.2. Breakdown of Primary Sources
3. Executive Summary: Automotive Composite Body Panel Market Size, by Market Value (US$ Mn)
4. Market Overview
4.1. Introduction
4.2. Market Indicator
4.2.1. Drivers
4.2.2. Restraints
4.2.3. Opportunities
4.2.4. Challenges
4.3. Porter’s Analysis
4.4. Value Chain Analysis
4.5. Market Risk Analysis
4.6. SWOT Analysis
4.7. Industry Trends and Emerging Technologies
5. Supply Side and Demand Side Indicators
6. Automotive Composite Body Panel Market Analysis and Forecast
6.1. Automotive Composite Body Panel Market Size & Y-o-Y Growth Analysis
6.1.1. North America
6.1.2. Europe
6.1.3. Asia Pacific
6.1.4. Middle East & Africa
6.1.5. South America
7. Automotive Composite Body Panel Market Analysis and Forecast, By Manufacturing Process
7.1. Introduction and Definition
7.2. Key Findings
7.3. Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
7.4. Automotive Composite Body Panel Market Size (US$ Mn) Forecast, By Manufacturing Process
7.5. Automotive Composite Body Panel Market Analysis, By Manufacturing Process
7.6. Automotive Composite Body Panel Market Attractiveness Analysis, By Manufacturing Process
8. Automotive Composite Body Panel Market Analysis and Forecast, By Material Type
8.1. Introduction and Definition
8.2. Key Findings
8.3. Automotive Composite Body Panel Market Value Share Analysis, By Material Type
8.4. Automotive Composite Body Panel Market Size (US$ Mn) Forecast, By Material Type
8.5. Automotive Composite Body Panel Market Analysis, By Material Type
8.6. Automotive Composite Body Panel Market Attractiveness Analysis, By Material Type
9. Automotive Composite Body Panel Market Analysis and Forecast, By End User
9.1. Introduction and Definition
9.2. Key Findings
9.3. Automotive Composite Body Panel Market Value Share Analysis, By End User
9.4. Automotive Composite Body Panel Market Size (US$ Mn) Forecast, By End User
9.5. Automotive Composite Body Panel Market Analysis, By End User
9.6. Automotive Composite Body Panel Market Attractiveness Analysis, By End User
10. Automotive Composite Body Panel Market Analysis, by Region
10.1. Automotive Composite Body Panel Market Value Share Analysis, by Region
10.2. Automotive Composite Body Panel Market Size (US$ Mn) Forecast, by Region
10.3. Automotive Composite Body Panel Market Attractiveness Analysis, by Region
11. North America Automotive Composite Body Panel Market Analysis
11.1. Key Findings
11.2. North America Automotive Composite Body Panel Market Overview
11.3. North America Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
11.4. North America Automotive Composite Body Panel Market Forecast, By Manufacturing Process
11.4.1. Lay-up Process
11.4.2. Compression Molding Process
11.4.3. Resin Transfer Molding (RTM) Process
11.4.4. Filament Winding Process
11.4.5. Injection Molding Process
11.4.6. Pultrusion Process
11.4.7. Vacuum Infusion
11.4.8. Other Processes
11.5. North America Automotive Composite Body Panel Market Value Share Analysis, By Material Type
11.6. North America Automotive Composite Body Panel Market Forecast, By Material Type
11.6.1. Polymer Matrix Composite (PMC)
11.6.1.1. Carbon Fiber Reinforced Plastic (CFRP)
11.6.1.2. Glass Fiber Reinforced Plastic (GFRP)
11.6.1.3. Natural Fiber Reinforced Plastic (NFRP)
11.6.2. Metal Matrix Composite (MMC)
11.6.3. Ceramic Matrix Composite (CMC)
11.7. North America Automotive Composite Body Panel Market Value Share Analysis, By End User
11.8. North America Automotive Composite Body Panel Market Forecast, By End User
11.8.1. Passenger Vehicles
11.8.2. Medium Commercial Vehicles
11.8.3. Heavy Duty Commercial Vehicles
11.8.4. Light Duty Commercial Vehicles
11.9. North America Automotive Composite Body Panel Market Value Share Analysis, by Country
11.10. North America Automotive Composite Body Panel Market Forecast, by Country
11.10.1. U.S.
11.10.2. Canada
11.11. North America Automotive Composite Body Panel Market Analysis, by Country
11.12. U.S. Automotive Composite Body Panel Market Forecast, By Manufacturing Process
11.12.1. Lay-up Process
11.12.2. Compression Molding Process
11.12.3. Resin Transfer Molding (RTM) Process
11.12.4. Filament Winding Process
11.12.5. Injection Molding Process
11.12.6. Pultrusion Process
11.12.7. Vacuum Infusion
11.12.8. Other Processes
11.13. U.S. Automotive Composite Body Panel Market Forecast, By Material Type
11.13.1. Polymer Matrix Composite (PMC)
11.13.1.1. Carbon Fiber Reinforced Plastic (CFRP)
11.13.1.2. Glass Fiber Reinforced Plastic (GFRP)
11.13.1.3. Natural Fiber Reinforced Plastic (NFRP)
11.13.2. Metal Matrix Composite (MMC)
11.13.3. Ceramic Matrix Composite (CMC)
11.14. U.S. Automotive Composite Body Panel Market Forecast, By End User
11.14.1. Passenger Vehicles
11.14.2. Medium Commercial Vehicles
11.14.3. Heavy Duty Commercial Vehicles
11.14.4. Light Duty Commercial Vehicles
11.15. Canada Automotive Composite Body Panel Market Forecast, By Manufacturing Process
11.15.1. Lay-up Process
11.15.2. Compression Molding Process
11.15.3. Resin Transfer Molding (RTM) Process
11.15.4. Filament Winding Process
11.15.5. Injection Molding Process
11.15.6. Pultrusion Process
11.15.7. Vacuum Infusion
11.15.8. Other Processes
11.16. Canada Automotive Composite Body Panel Market Forecast, By Material Type
11.16.1. Polymer Matrix Composite (PMC)
11.16.1.1. Carbon Fiber Reinforced Plastic (CFRP)
11.16.1.2. Glass Fiber Reinforced Plastic (GFRP)
11.16.1.3. Natural Fiber Reinforced Plastic (NFRP)
11.16.2. Metal Matrix Composite (MMC)
11.16.3. Ceramic Matrix Composite (CMC)
11.17. Canada Automotive Composite Body Panel Market Forecast, By End User
11.17.1. Passenger Vehicles
11.17.2. Medium Commercial Vehicles
11.17.3. Heavy Duty Commercial Vehicles
11.17.4. Light Duty Commercial Vehicles
11.18. North America Automotive Composite Body Panel Market Attractiveness Analysis
11.18.1. By Manufacturing Process
11.18.2. By Material Type
11.18.3. By End User
11.19. PEST Analysis
11.20. Key Trends
11.21. Key Developments
12. Europe Automotive Composite Body Panel Market Analysis
12.1. Key Findings
12.2. Europe Automotive Composite Body Panel Market Overview
12.3. Europe Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
12.4. Europe Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.4.1. Lay-up Process
12.4.2. Compression Molding Process
12.4.3. Resin Transfer Molding (RTM) Process
12.4.4. Filament Winding Process
12.4.5. Injection Molding Process
12.4.6. Pultrusion Process
12.4.7. Vacuum Infusion
12.4.8. Other Processes
12.5. Europe Automotive Composite Body Panel Market Value Share Analysis, By Material Type
12.6. Europe Automotive Composite Body Panel Market Forecast, By Material Type
12.6.1. Polymer Matrix Composite (PMC)
12.6.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.6.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.6.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.6.2. Metal Matrix Composite (MMC)
12.6.3. Ceramic Matrix Composite (CMC)
12.7. Europe Automotive Composite Body Panel Market Value Share Analysis, By End User
12.8. Europe Automotive Composite Body Panel Market Forecast, By End User
12.8.1. Passenger Vehicles
12.8.2. Medium Commercial Vehicles
12.8.3. Heavy Duty Commercial Vehicles
12.8.4. Light Duty Commercial Vehicles
12.9. Europe Automotive Composite Body Panel Market Value Share Analysis, by Country
12.10. Europe Automotive Composite Body Panel Market Forecast, by Country
12.10.1. Germany
12.10.2. U.K.
12.10.3. France
12.10.4. Italy
12.10.5. Spain
12.10.6. Sweden
12.10.7. Rest of Europe
12.11. Europe Automotive Composite Body Panel Market Analysis, by Country
12.12. Germany Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.12.1. Lay-up Process
12.12.2. Compression Molding Process
12.12.3. Resin Transfer Molding (RTM) Process
12.12.4. Filament Winding Process
12.12.5. Injection Molding Process
12.12.6. Pultrusion Process
12.12.7. Vacuum Infusion
12.12.8. Other Processes
12.13. Germany Automotive Composite Body Panel Market Forecast, By Material Type
12.13.1. Polymer Matrix Composite (PMC)
12.13.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.13.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.13.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.13.2. Metal Matrix Composite (MMC)
12.13.3. Ceramic Matrix Composite (CMC)
12.14. Germany Automotive Composite Body Panel Market Forecast, By End User
12.14.1. Passenger Vehicles
12.14.2. Medium Commercial Vehicles
12.14.3. Heavy Duty Commercial Vehicles
12.14.4. Light Duty Commercial Vehicles
12.15. U.K. Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.15.1. Lay-up Process
12.15.2. Compression Molding Process
12.15.3. Resin Transfer Molding (RTM) Process
12.15.4. Filament Winding Process
12.15.5. Injection Molding Process
12.15.6. Pultrusion Process
12.15.7. Vacuum Infusion
12.15.8. Other Processes
12.16. U.K. Automotive Composite Body Panel Market Forecast, By Material Type
12.16.1. Polymer Matrix Composite (PMC)
12.16.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.16.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.16.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.16.2. Metal Matrix Composite (MMC)
12.16.3. Ceramic Matrix Composite (CMC)
12.17. U.K. Automotive Composite Body Panel Market Forecast, By End User
12.17.1. Passenger Vehicles
12.17.2. Medium Commercial Vehicles
12.17.3. Heavy Duty Commercial Vehicles
12.17.4. Light Duty Commercial Vehicles
12.18. France Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.18.1. Lay-up Process
12.18.2. Compression Molding Process
12.18.3. Resin Transfer Molding (RTM) Process
12.18.4. Filament Winding Process
12.18.5. Injection Molding Process
12.18.6. Pultrusion Process
12.18.7. Vacuum Infusion
12.18.8. Other Processes
12.19. France Automotive Composite Body Panel Market Forecast, By Material Type
12.19.1. Polymer Matrix Composite (PMC)
12.19.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.19.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.19.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.19.2. Metal Matrix Composite (MMC)
12.19.3. Ceramic Matrix Composite (CMC)
12.20. France Automotive Composite Body Panel Market Forecast, By End User
12.20.1. Passenger Vehicles
12.20.2. Medium Commercial Vehicles
12.20.3. Heavy Duty Commercial Vehicles
12.20.4. Light Duty Commercial Vehicles
12.21. Italy Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.21.1. Lay-up Process
12.21.2. Compression Molding Process
12.21.3. Resin Transfer Molding (RTM) Process
12.21.4. Filament Winding Process
12.21.5. Injection Molding Process
12.21.6. Pultrusion Process
12.21.7. Vacuum Infusion
12.21.8. Other Processes
12.22. Italy Automotive Composite Body Panel Market Forecast, By Material Type
12.22.1. Polymer Matrix Composite (PMC)
12.22.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.22.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.22.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.22.2. Metal Matrix Composite (MMC)
12.22.3. Ceramic Matrix Composite (CMC)
12.23. Italy Automotive Composite Body Panel Market Forecast, By End User
12.23.1. Passenger Vehicles
12.23.2. Medium Commercial Vehicles
12.23.3. Heavy Duty Commercial Vehicles
12.23.4. Light Duty Commercial Vehicles
12.24. Spain Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.24.1. Lay-up Process
12.24.2. Compression Molding Process
12.24.3. Resin Transfer Molding (RTM) Process
12.24.4. Filament Winding Process
12.24.5. Injection Molding Process
12.24.6. Pultrusion Process
12.24.7. Vacuum Infusion
12.24.8. Other Processes
12.25. Spain Automotive Composite Body Panel Market Forecast, By Material Type
12.25.1. Polymer Matrix Composite (PMC)
12.25.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.25.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.25.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.25.2. Metal Matrix Composite (MMC)
12.25.3. Ceramic Matrix Composite (CMC)
12.26. Spain Automotive Composite Body Panel Market Forecast, By End User
12.26.1. Passenger Vehicles
12.26.2. Medium Commercial Vehicles
12.26.3. Heavy Duty Commercial Vehicles
12.26.4. Light Duty Commercial Vehicles
12.27. Sweden Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.27.1. Lay-up Process
12.27.2. Compression Molding Process
12.27.3. Resin Transfer Molding (RTM) Process
12.27.4. Filament Winding Process
12.27.5. Injection Molding Process
12.27.6. Pultrusion Process
12.27.7. Vacuum Infusion
12.27.8. Other Processes
12.28. Sweden Automotive Composite Body Panel Market Forecast, By Material Type
12.28.1. Polymer Matrix Composite (PMC)
12.28.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.28.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.28.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.28.2. Metal Matrix Composite (MMC)
12.28.3. Ceramic Matrix Composite (CMC)
12.29. Sweden Automotive Composite Body Panel Market Forecast, By End User
12.29.1. Passenger Vehicles
12.29.2. Medium Commercial Vehicles
12.29.3. Heavy Duty Commercial Vehicles
12.29.4. Light Duty Commercial Vehicles
12.30. Rest of Europe Automotive Composite Body Panel Market Forecast, By Manufacturing Process
12.30.1. Lay-up Process
12.30.2. Compression Molding Process
12.30.3. Resin Transfer Molding (RTM) Process
12.30.4. Filament Winding Process
12.30.5. Injection Molding Process
12.30.6. Pultrusion Process
12.30.7. Vacuum Infusion
12.30.8. Other Processes
12.31. Rest of Europe Automotive Composite Body Panel Market Forecast, By Material Type
12.31.1. Polymer Matrix Composite (PMC)
12.31.1.1. Carbon Fiber Reinforced Plastic (CFRP)
12.31.1.2. Glass Fiber Reinforced Plastic (GFRP)
12.31.1.3. Natural Fiber Reinforced Plastic (NFRP)
12.31.2. Metal Matrix Composite (MMC)
12.31.3. Ceramic Matrix Composite (CMC)
12.32. Rest of Europe Automotive Composite Body Panel Market Forecast, By End User
12.32.1. Passenger Vehicles
12.32.2. Medium Commercial Vehicles
12.32.3. Heavy Duty Commercial Vehicles
12.32.4. Light Duty Commercial Vehicles
12.33. Europe Automotive Composite Body Panel Market Attractiveness Analysis
12.33.1. By Manufacturing Process
12.33.2. By Material Type
12.33.3. By End User
12.34. PEST Analysis
12.35. Key Trends
12.36. Key Developments
13. Asia Pacific Automotive Composite Body Panel Market Analysis
13.1. Key Findings
13.2. Asia Pacific Automotive Composite Body Panel Market Overview
13.3. Asia Pacific Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
13.4. Asia Pacific Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.4.1. Lay-up Process
13.4.2. Compression Molding Process
13.4.3. Resin Transfer Molding (RTM) Process
13.4.4. Filament Winding Process
13.4.5. Injection Molding Process
13.4.6. Pultrusion Process
13.4.7. Vacuum Infusion
13.4.8. Other Processes
13.5. Asia Pacific Automotive Composite Body Panel Market Value Share Analysis, By Material Type
13.6. Asia Pacific Automotive Composite Body Panel Market Forecast, By Material Type
13.6.1. Polymer Matrix Composite (PMC)
13.6.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.6.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.6.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.6.2. Metal Matrix Composite (MMC)
13.6.3. Ceramic Matrix Composite (CMC)
13.7. Asia Pacific Automotive Composite Body Panel Market Value Share Analysis, By End User
13.8. Asia Pacific Automotive Composite Body Panel Market Forecast, By End User
13.8.1. Passenger Vehicles
13.8.2. Medium Commercial Vehicles
13.8.3. Heavy Duty Commercial Vehicles
13.8.4. Light Duty Commercial Vehicles
13.9. Asia Pacific Automotive Composite Body Panel Market Value Share Analysis, by Country
13.10. Asia Pacific Automotive Composite Body Panel Market Forecast, by Country
13.10.1. China
13.10.2. India
13.10.3. Japan
13.10.4. South Korea
13.10.5. Australia
13.10.6. Indonesia
13.10.7. Malaysia
13.10.8. Vietnam
13.10.9. Rest of Asia Pacific
13.11. Asia Pacific Automotive Composite Body Panel Market Analysis, by Country
13.12. China Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.12.1. Lay-up Process
13.12.2. Compression Molding Process
13.12.3. Resin Transfer Molding (RTM) Process
13.12.4. Filament Winding Process
13.12.5. Injection Molding Process
13.12.6. Pultrusion Process
13.12.7. Vacuum Infusion
13.12.8. Other Processes
13.13. China Automotive Composite Body Panel Market Forecast, By Material Type
13.13.1. Polymer Matrix Composite (PMC)
13.13.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.13.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.13.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.13.2. Metal Matrix Composite (MMC)
13.13.3. Ceramic Matrix Composite (CMC)
13.14. China Automotive Composite Body Panel Market Forecast, By End User
13.14.1. Passenger Vehicles
13.14.2. Medium Commercial Vehicles
13.14.3. Heavy Duty Commercial Vehicles
13.14.4. Light Duty Commercial Vehicles
13.15. India Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.15.1. Lay-up Process
13.15.2. Compression Molding Process
13.15.3. Resin Transfer Molding (RTM) Process
13.15.4. Filament Winding Process
13.15.5. Injection Molding Process
13.15.6. Pultrusion Process
13.15.7. Vacuum Infusion
13.15.8. Other Processes
13.16. India Automotive Composite Body Panel Market Forecast, By Material Type
13.16.1. Polymer Matrix Composite (PMC)
13.16.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.16.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.16.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.16.2. Metal Matrix Composite (MMC)
13.16.3. Ceramic Matrix Composite (CMC)
13.17. India Automotive Composite Body Panel Market Forecast, By End User
13.17.1. Passenger Vehicles
13.17.2. Medium Commercial Vehicles
13.17.3. Heavy Duty Commercial Vehicles
13.17.4. Light Duty Commercial Vehicles
13.18. Japan Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.18.1. Lay-up Process
13.18.2. Compression Molding Process
13.18.3. Resin Transfer Molding (RTM) Process
13.18.4. Filament Winding Process
13.18.5. Injection Molding Process
13.18.6. Pultrusion Process
13.18.7. Vacuum Infusion
13.18.8. Other Processes
13.19. Japan Automotive Composite Body Panel Market Forecast, By Material Type
13.19.1. Polymer Matrix Composite (PMC)
13.19.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.19.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.19.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.19.2. Metal Matrix Composite (MMC)
13.19.3. Ceramic Matrix Composite (CMC)
13.20. Japan Automotive Composite Body Panel Market Forecast, By End User
13.20.1. Passenger Vehicles
13.20.2. Medium Commercial Vehicles
13.20.3. Heavy Duty Commercial Vehicles
13.20.4. Light Duty Commercial Vehicles
13.21. South Korea Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.21.1. Lay-up Process
13.21.2. Compression Molding Process
13.21.3. Resin Transfer Molding (RTM) Process
13.21.4. Filament Winding Process
13.21.5. Injection Molding Process
13.21.6. Pultrusion Process
13.21.7. Vacuum Infusion
13.21.8. Other Processes
13.22. South Korea Automotive Composite Body Panel Market Forecast, By Material Type
13.22.1. Polymer Matrix Composite (PMC)
13.22.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.22.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.22.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.22.2. Metal Matrix Composite (MMC)
13.22.3. Ceramic Matrix Composite (CMC)
13.23. South Korea Automotive Composite Body Panel Market Forecast, By End User
13.23.1. Passenger Vehicles
13.23.2. Medium Commercial Vehicles
13.23.3. Heavy Duty Commercial Vehicles
13.23.4. Light Duty Commercial Vehicles
13.24. Australia Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.24.1. Lay-up Process
13.24.2. Compression Molding Process
13.24.3. Resin Transfer Molding (RTM) Process
13.24.4. Filament Winding Process
13.24.5. Injection Molding Process
13.24.6. Pultrusion Process
13.24.7. Vacuum Infusion
13.24.8. Other Processes
13.25. Australia Automotive Composite Body Panel Market Forecast, By Material Type
13.25.1. Polymer Matrix Composite (PMC)
13.25.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.25.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.25.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.25.2. Metal Matrix Composite (MMC)
13.25.3. Ceramic Matrix Composite (CMC)
13.26. Australia Automotive Composite Body Panel Market Forecast, By End User
13.26.1. Passenger Vehicles
13.26.2. Medium Commercial Vehicles
13.26.3. Heavy Duty Commercial Vehicles
13.26.4. Light Duty Commercial Vehicles
13.27. Indonesia Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.27.1. Lay-up Process
13.27.2. Compression Molding Process
13.27.3. Resin Transfer Molding (RTM) Process
13.27.4. Filament Winding Process
13.27.5. Injection Molding Process
13.27.6. Pultrusion Process
13.27.7. Vacuum Infusion
13.27.8. Other Processes
13.28. Indonesia Automotive Composite Body Panel Market Forecast, By Material Type
13.28.1. Polymer Matrix Composite (PMC)
13.28.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.28.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.28.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.28.2. Metal Matrix Composite (MMC)
13.28.3. Ceramic Matrix Composite (CMC)
13.29. Indonesia Automotive Composite Body Panel Market Forecast, By End User
13.29.1. Passenger Vehicles
13.29.2. Medium Commercial Vehicles
13.29.3. Heavy Duty Commercial Vehicles
13.29.4. Light Duty Commercial Vehicles
13.30. Malaysia Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.30.1. Lay-up Process
13.30.2. Compression Molding Process
13.30.3. Resin Transfer Molding (RTM) Process
13.30.4. Filament Winding Process
13.30.5. Injection Molding Process
13.30.6. Pultrusion Process
13.30.7. Vacuum Infusion
13.30.8. Other Processes
13.31. Malaysia Automotive Composite Body Panel Market Forecast, By Material Type
13.31.1. Polymer Matrix Composite (PMC)
13.31.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.31.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.31.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.31.2. Metal Matrix Composite (MMC)
13.31.3. Ceramic Matrix Composite (CMC)
13.32. Malaysia Automotive Composite Body Panel Market Forecast, By End User
13.32.1. Passenger Vehicles
13.32.2. Medium Commercial Vehicles
13.32.3. Heavy Duty Commercial Vehicles
13.32.4. Light Duty Commercial Vehicles
13.33. Vietnam Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.33.1. Lay-up Process
13.33.2. Compression Molding Process
13.33.3. Resin Transfer Molding (RTM) Process
13.33.4. Filament Winding Process
13.33.5. Injection Molding Process
13.33.6. Pultrusion Process
13.33.7. Vacuum Infusion
13.33.8. Other Processes
13.34. Vietnam Automotive Composite Body Panel Market Forecast, By Material Type
13.34.1. Polymer Matrix Composite (PMC)
13.34.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.34.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.34.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.34.2. Metal Matrix Composite (MMC)
13.34.3. Ceramic Matrix Composite (CMC)
13.35. Vietnam Automotive Composite Body Panel Market Forecast, By End User
13.35.1. Passenger Vehicles
13.35.2. Medium Commercial Vehicles
13.35.3. Heavy Duty Commercial Vehicles
13.35.4. Light Duty Commercial Vehicles
13.36. Rest of Asia Pacific Automotive Composite Body Panel Market Forecast, By Manufacturing Process
13.36.1. Lay-up Process
13.36.2. Compression Molding Process
13.36.3. Resin Transfer Molding (RTM) Process
13.36.4. Filament Winding Process
13.36.5. Injection Molding Process
13.36.6. Pultrusion Process
13.36.7. Vacuum Infusion
13.36.8. Other Processes
13.37. Rest of Asia Pacific Automotive Composite Body Panel Market Forecast, By Material Type
13.37.1. Polymer Matrix Composite (PMC)
13.37.1.1. Carbon Fiber Reinforced Plastic (CFRP)
13.37.1.2. Glass Fiber Reinforced Plastic (GFRP)
13.37.1.3. Natural Fiber Reinforced Plastic (NFRP)
13.37.2. Metal Matrix Composite (MMC)
13.37.3. Ceramic Matrix Composite (CMC)
13.38. Rest of Asia Pacific Automotive Composite Body Panel Market Forecast, By End User
13.38.1. Passenger Vehicles
13.38.2. Medium Commercial Vehicles
13.38.3. Heavy Duty Commercial Vehicles
13.38.4. Light Duty Commercial Vehicles
13.39. Asia Pacific Automotive Composite Body Panel Market Attractiveness Analysis
13.39.1. By Manufacturing Process
13.39.2. By Material Type
13.39.3. By End User
13.40. PEST Analysis
13.41. Key Trends
13.42. Key Developments
14. Middle East & Africa Automotive Composite Body Panel Market Analysis
14.1. Key Findings
14.2. Middle East & Africa Automotive Composite Body Panel Market Overview
14.3. Middle East & Africa Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
14.4. Middle East & Africa Automotive Composite Body Panel Market Forecast, By Manufacturing Process
14.4.1. Lay-up Process
14.4.2. Compression Molding Process
14.4.3. Resin Transfer Molding (RTM) Process
14.4.4. Filament Winding Process
14.4.5. Injection Molding Process
14.4.6. Pultrusion Process
14.4.7. Vacuum Infusion
14.4.8. Other Processes
14.5. Middle East & Africa Automotive Composite Body Panel Market Value Share Analysis, By Material Type
14.6. Middle East & Africa Automotive Composite Body Panel Market Forecast, By Material Type
14.6.1. Polymer Matrix Composite (PMC)
14.6.1.1. Carbon Fiber Reinforced Plastic (CFRP)
14.6.1.2. Glass Fiber Reinforced Plastic (GFRP)
14.6.1.3. Natural Fiber Reinforced Plastic (NFRP)
14.6.2. Metal Matrix Composite (MMC)
14.6.3. Ceramic Matrix Composite (CMC)
14.7. Middle East & Africa Automotive Composite Body Panel Market Value Share Analysis, By End User
14.8. Middle East & Africa Automotive Composite Body Panel Market Forecast, By End User
14.8.1. Passenger Vehicles
14.8.2. Medium Commercial Vehicles
14.8.3. Heavy Duty Commercial Vehicles
14.8.4. Light Duty Commercial Vehicles
14.9. Middle East & Africa Automotive Composite Body Panel Market Value Share Analysis, by Country
14.10. Middle East & Africa Automotive Composite Body Panel Market Forecast, by Country
14.10.1. GCC
14.10.2. South Africa
14.10.3. Rest of Middle East & Africa
14.11. Middle East & Africa Automotive Composite Body Panel Market Analysis, by Country
14.12. GCC Automotive Composite Body Panel Market Forecast, By Manufacturing Process
14.12.1. Lay-up Process
14.12.2. Compression Molding Process
14.12.3. Resin Transfer Molding (RTM) Process
14.12.4. Filament Winding Process
14.12.5. Injection Molding Process
14.12.6. Pultrusion Process
14.12.7. Vacuum Infusion
14.12.8. Other Processes
14.13. GCC Automotive Composite Body Panel Market Forecast, By Material Type
14.13.1. Polymer Matrix Composite (PMC)
14.13.1.1. Carbon Fiber Reinforced Plastic (CFRP)
14.13.1.2. Glass Fiber Reinforced Plastic (GFRP)
14.13.1.3. Natural Fiber Reinforced Plastic (NFRP)
14.13.2. Metal Matrix Composite (MMC)
14.13.3. Ceramic Matrix Composite (CMC)
14.14. GCC Automotive Composite Body Panel Market Forecast, By End User
14.14.1. Passenger Vehicles
14.14.2. Medium Commercial Vehicles
14.14.3. Heavy Duty Commercial Vehicles
14.14.4. Light Duty Commercial Vehicles
14.15. South Africa Automotive Composite Body Panel Market Forecast, By Manufacturing Process
14.15.1. Lay-up Process
14.15.2. Compression Molding Process
14.15.3. Resin Transfer Molding (RTM) Process
14.15.4. Filament Winding Process
14.15.5. Injection Molding Process
14.15.6. Pultrusion Process
14.15.7. Vacuum Infusion
14.15.8. Other Processes
14.16. South Africa Automotive Composite Body Panel Market Forecast, By Material Type
14.16.1. Polymer Matrix Composite (PMC)
14.16.1.1. Carbon Fiber Reinforced Plastic (CFRP)
14.16.1.2. Glass Fiber Reinforced Plastic (GFRP)
14.16.1.3. Natural Fiber Reinforced Plastic (NFRP)
14.16.2. Metal Matrix Composite (MMC)
14.16.3. Ceramic Matrix Composite (CMC)
14.17. South Africa Automotive Composite Body Panel Market Forecast, By End User
14.17.1. Passenger Vehicles
14.17.2. Medium Commercial Vehicles
14.17.3. Heavy Duty Commercial Vehicles
14.17.4. Light Duty Commercial Vehicles
14.18. Rest of Middle East & Africa Automotive Composite Body Panel Market Forecast, By Manufacturing Process
14.18.1. Lay-up Process
14.18.2. Compression Molding Process
14.18.3. Resin Transfer Molding (RTM) Process
14.18.4. Filament Winding Process
14.18.5. Injection Molding Process
14.18.6. Pultrusion Process
14.18.7. Vacuum Infusion
14.18.8. Other Processes
14.19. Rest of Middle East & Africa Automotive Composite Body Panel Market Forecast, By Material Type
14.19.1. Polymer Matrix Composite (PMC)
14.19.1.1. Carbon Fiber Reinforced Plastic (CFRP)
14.19.1.2. Glass Fiber Reinforced Plastic (GFRP)
14.19.1.3. Natural Fiber Reinforced Plastic (NFRP)
14.19.2. Metal Matrix Composite (MMC)
14.19.3. Ceramic Matrix Composite (CMC)
14.20. Rest of Middle East & Africa Automotive Composite Body Panel Market Forecast, By End User
14.20.1. Passenger Vehicles
14.20.2. Medium Commercial Vehicles
14.20.3. Heavy Duty Commercial Vehicles
14.20.4. Light Duty Commercial Vehicles
14.21. Middle East & Africa Automotive Composite Body Panel Market Attractiveness Analysis
14.21.1. By Manufacturing Process
14.21.2. By Material Type
14.21.3. By End User
14.22. PEST Analysis
14.23. Key Trends
14.24. Key Developments
15. South America Automotive Composite Body Panel Market Analysis
15.1. Key Findings
15.2. South America Automotive Composite Body Panel Market Overview
15.3. South America Automotive Composite Body Panel Market Value Share Analysis, By Manufacturing Process
15.4. South America Automotive Composite Body Panel Market Forecast, By Manufacturing Process
15.4.1. Lay-up Process
15.4.2. Compression Molding Process
15.4.3. Resin Transfer Molding (RTM) Process
15.4.4. Filament Winding Process
15.4.5. Injection Molding Process
15.4.6. Pultrusion Process
15.4.7. Vacuum Infusion
15.4.8. Other Processes
15.5. South America Automotive Composite Body Panel Market Value Share Analysis, By Material Type
15.6. South America Automotive Composite Body Panel Market Forecast, By Material Type
15.6.1. Polymer Matrix Composite (PMC)
15.6.1.1. Carbon Fiber Reinforced Plastic (CFRP)
15.6.1.2. Glass Fiber Reinforced Plastic (GFRP)
15.6.1.3. Natural Fiber Reinforced Plastic (NFRP)
15.6.2. Metal Matrix Composite (MMC)
15.6.3. Ceramic Matrix Composite (CMC)
15.7. South America Automotive Composite Body Panel Market Value Share Analysis, By End User
15.8. South America Automotive Composite Body Panel Market Forecast, By End User
15.8.1. Passenger Vehicles
15.8.2. Medium Commercial Vehicles
15.8.3. Heavy Duty Commercial Vehicles
15.8.4. Light Duty Commercial Vehicles
15.9. South America Automotive Composite Body Panel Market Value Share Analysis, by Country
15.10. South America Automotive Composite Body Panel Market Forecast, by Country
15.10.1. Brazil
15.10.2. Mexico
15.10.3. Rest of South America
15.11. South America Automotive Composite Body Panel Market Analysis, by Country
15.12. Brazil Automotive Composite Body Panel Market Forecast, By Manufacturing Process
15.12.1. Lay-up Process
15.12.2. Compression Molding Process
15.12.3. Resin Transfer Molding (RTM) Process
15.12.4. Filament Winding Process
15.12.5. Injection Molding Process
15.12.6. Pultrusion Process
15.12.7. Vacuum Infusion
15.12.8. Other Processes
15.13. Brazil Automotive Composite Body Panel Market Forecast, By Material Type
15.13.1. Polymer Matrix Composite (PMC)
15.13.1.1. Carbon Fiber Reinforced Plastic (CFRP)
15.13.1.2. Glass Fiber Reinforced Plastic (GFRP)
15.13.1.3. Natural Fiber Reinforced Plastic (NFRP)
15.13.2. Metal Matrix Composite (MMC)
15.13.3. Ceramic Matrix Composite (CMC)
15.14. Brazil Automotive Composite Body Panel Market Forecast, By End User
15.14.1. Passenger Vehicles
15.14.2. Medium Commercial Vehicles
15.14.3. Heavy Duty Commercial Vehicles
15.14.4. Light Duty Commercial Vehicles
15.15. Mexico Automotive Composite Body Panel Market Forecast, By Manufacturing Process
15.15.1. Lay-up Process
15.15.2. Compression Molding Process
15.15.3. Resin Transfer Molding (RTM) Process
15.15.4. Filament Winding Process
15.15.5. Injection Molding Process
15.15.6. Pultrusion Process
15.15.7. Vacuum Infusion
15.15.8. Other Processes
15.16. Mexico Automotive Composite Body Panel Market Forecast, By Material Type
15.16.1. Polymer Matrix Composite (PMC)
15.16.1.1. Carbon Fiber Reinforced Plastic (CFRP)
15.16.1.2. Glass Fiber Reinforced Plastic (GFRP)
15.16.1.3. Natural Fiber Reinforced Plastic (NFRP)
15.16.2. Metal Matrix Composite (MMC)
15.16.3. Ceramic Matrix Composite (CMC)
15.17. Mexico Automotive Composite Body Panel Market Forecast, By End User
15.17.1. Passenger Vehicles
15.17.2. Medium Commercial Vehicles
15.17.3. Heavy Duty Commercial Vehicles
15.17.4. Light Duty Commercial Vehicles
15.18. Rest of South America Automotive Composite Body Panel Market Forecast, By Manufacturing Process
15.18.1. Lay-up Process
15.18.2. Compression Molding Process
15.18.3. Resin Transfer Molding (RTM) Process
15.18.4. Filament Winding Process
15.18.5. Injection Molding Process
15.18.6. Pultrusion Process
15.18.7. Vacuum Infusion
15.18.8. Other Processes
15.19. Rest of South America Automotive Composite Body Panel Market Forecast, By Material Type
15.19.1. Polymer Matrix Composite (PMC)
15.19.1.1. Carbon Fiber Reinforced Plastic (CFRP)
15.19.1.2. Glass Fiber Reinforced Plastic (GFRP)
15.19.1.3. Natural Fiber Reinforced Plastic (NFRP)
15.19.2. Metal Matrix Composite (MMC)
15.19.3. Ceramic Matrix Composite (CMC)
15.20. Rest of Middle East & Africa Automotive Composite Body Panel Market Forecast, By End User
15.20.1. Passenger Vehicles
15.20.2. Medium Commercial Vehicles
15.20.3. Heavy Duty Commercial Vehicles
15.20.4. Light Duty Commercial Vehicles
15.21. South America Automotive Composite Body Panel Market Attractiveness Analysis
15.21.1. By Manufacturing Process
15.21.2. By Material Type
15.21.3. By End User
15.22. PEST Analysis
15.23. Key Trends
15.24. Key Developments
16. Company Profiles
16.1. Market Share Analysis, by Company
16.2. Competition Matrix
16.2.1. Competitive Benchmarking of key players by price, presence, market share, Vehicles, and R&D investment
16.2.2. New Light Launches and Light Enhancements
16.2.3. Market Consolidation
16.2.3.1. M&A by Regions, Investment and Vehicles
16.2.3.2. M&A Key Players, Forward Integration and Backward Integration
16.3. Company Profiles: Key Players
16.3.1. Abc group Inc
16.3.1.1. Company Overview
16.3.1.2. Financial Overview
16.3.1.3. Light Portfolio
16.3.1.4. Business Strategy
16.3.1.5. Recent Developments
16.3.1.6. Development Footprint
16.3.2. Austem company ltd.
16.3.3. Changshu huiyi mechanical & electrical co., ltd.
16.3.4. Flex-n-gate corporation
16.3.5. Gestamp
16.3.6. Gordon auto body parts co., ltd.
16.3.7. Hwashim
16.3.8. Kuante auto parts manufacture co., limited
16.3.9. Magna international inc.
16.3.10. Plastic omnium
16.3.11. Stick industry co., ltd.
17. Primary Key Insights