Global Automotive Foam Market -Forecast and Analysis (2020-2027), by Types, by Applications by End User and by Region.


Global Automotive Foam Market was valued at USD 37.78Bn in 2019 and is expected to reach at USD 78.43 Bn by 2027 at a CAGR of 9.56% over forecast period 2020-2027.

 

Global Automotive Foam Market

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The report covers an in depth analysis of COVID 19 pandemic impact on Global Automotive Foam Market by region and on the key players revenue affected till April 2020 and expected short term and long term impact on the market.

Global Automotive Foam Market Dynamic’s:

Automotive foams are made up of a solid and gas phase mixed together to form a plastic foam. Automotive foams are produced from polyolefins, PVC, polyurethane and other petroleum derivative products. An expanding automotive industry in china, India, Japan, South Korea and Brazil coupled with increase in disposable income of people are mainly driving the global automotive foam market over forecast period. Automotive foam offers several advantages such as it reduces the overall weight, offers superior thermal insulation, unique physical properties which in turn will boost the automotive foam market over forecast period.

However, factors such as an economic slowdown due to covid 19 pandemic, fluctuating raw material prices and strict regulation related to the negative effects of chloro fluoro carbons which are involved in the production of the polymer-based foams are restraining the market growth over forecast period.

Global Automotive Foam Market is segmented by types, by applications and by region. By application, Seats and general interiors & exteriors segment held 28.56% of market share in 2029 and is expected to keep its dominance over forecast period. Majority of the polyurethane based cell foams are used to design the seats of the vehicles due to their excellent features such as ease of installation, minimal weight, fire & thermal resistance, low cost, etc.

By types, polyurethane (PU) foam held 37.45% of market share in 2019 and is expected to keep its dominance over forecast period. Its excellent mechanical strength properties, weight reduction abilities, wear and weathering resistance have made it one of the most important materials in automobile production. PU foam is used in various automobile components including seats, armrests and headrests, door panels, bumpers, and various other parts. It reduces the overall weight of the vehicle and provide greater fuel efficiency.

By geography, APAC held 36.08% of market share in 2019 and is expected to keep its dominance over forecast period. Factors such as an emerging economies in automobile sector such as South Korea, Japan and China and government supports and increasing vehicle production are expected to drive the market in this region. APAC is followed by North America and Europe. North America is expected to hold 28.56% of market share over forecast period Technological advancement coupled with extensive R&D to improve design and better operations in manufacturing is mainly driving the market in this region.

Europe is expected to hold 23.34% of market share over forecast period attributed to the well-established automotive industry in U.K. and Germany. The presence of major automobile manufacturers in the region who are continuously increasing their production capacity is expected to create lucrative opportunities for market over the forecast period.

Report covers in depth analysis key development, marketing strategies, benchmarking on various parameters and company profiles of market leaders, potential players and new entrants. Some of the key players covered in this report are Johnson Controls (U.S.), Woodbridge Foam Corporation (Canada), Lear Corporation (U.S.), Bridgestone Corporation (Tokyo), BASF (Germany), Recticel (Belgium), Vitafoams (U.K.), Armacell (Germany), The Dow Chemical Company (U.S.), Rogers (U.S.), and Saint-Gobain (France) among others. These key players are adopting various inorganic and organic growth strategies such as merger& acquisition, expansion, joint ventures, strategic alliances, new product launches, collaborations and patent to increase their regional presence and business opeartions.

The objective of the report is to present a comprehensive analysis of the Global Automotive Foam Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analysed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Automotive Foam Market dynamics, structure by analyzing the market segments and project Global Automotive Foam Market. Clear representation of competitive analysis of key players by price, financial position, Product portfolio, growth strategies, and regional presence in the Global Automotive Foam Market make the report investor’s guide.

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Global Automotive Foam Market by Types

• Polyurethane
• Polyolefin
• Styrenic
• Polyvinyl chloride
• Phenolic
• Melamine
• Others

Global Automotive Foam Market by End User

• Heavy Commercial Vehicles
• Light Commercial Vehicles
• Passenger Cars

Global Automotive Foam Market by Applications

• Seats
• Instrument panels
• Headliners
• Door panels & water shields
• General interiors and exteriors
• Gaskets & NVH
• others

Global Automotive Foam Market by Region

• APAC
• North America
• Europe
• MEA & Africa
• Latin America

Global Automotive Foam Market Major Players

• Johnson Controls (U.S.)
• Woodbridge Foam Corporation (Canada)
• Lear Corporation (U.S.)
• Bridgestone Corporation (Tokyo)
• BASF (Germany)
• Recticel (Belgium)
• Vitafoams (U.K.)
• Armacell (Germany)
• The Dow Chemical Company (U.S.)
• Rogers (U.S.)
• Saint-Gobain (France)
• Armacell
• Grand Rapids Foam Technologies
• Eurofoam Hungary
• Zotefoams Plc
• Caligen Foam
• UFP Technologies
• Foam Supplies
• Eurofoam Hungary 




Global Automotive Foam 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
2.3.2. Secondary data
2.3.3. Secondary Sources
2.3.4. Primary Research
2.3.5. Data from Primary Sources
2.3.6. Breakdown of Primary Sources

3. Executive Summary: Global Automotive Foam Market, by Market Value (US$ Bn)
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. Global Automotive Foam Market Analysis and Forecast
6.1. Global Automotive Foam 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. Global Automotive Foam Market Analysis and Forecast, By Types
7.1. Introduction and Definition
7.2. Key Findings
7.3. Global Automotive Foam Market Value Share Analysis, By Types
7.4. Global Automotive Foam Market Size (US$ Bn) Forecast, By Types
7.5. Global Automotive Foam Market Analysis, By Types
7.6. Global Automotive Foam Market Attractiveness Analysis, By Types

8. Global Automotive Foam Market Analysis and Forecast, By Applications
8.1. Introduction and Definition
8.2. Key Findings
8.3. Global Automotive Foam Market Value Share Analysis, By Applications
8.4. Global Automotive Foam Market Size (US$ Bn) Forecast, By Applications
8.5. Global Automotive Foam Market Analysis, By Applications
8.6. Global Automotive Foam Market Attractiveness Analysis, By Applications

9. Global Automotive Foam Market Analysis and Forecast, by End User
9.1. Introduction and Definition
9.2. Key Findings
9.3. Global Automotive Foam Market Value Share Analysis, by End User
9.4. Global Automotive Foam Market Size (US$ Bn) Forecast, by End User
9.5. Global Automotive Foam Market Analysis, by End User
9.6. Global Automotive Foam Market Attractiveness Analysis, by End User

10. Global Automotive Foam Market Analysis, by Region
10.1. Global Automotive Foam Market Value Share Analysis, by Region
10.2. Global Automotive Foam Market Size (US$ Bn) Forecast, by Region
10.3. Global Automotive Foam Market Attractiveness Analysis, by Region

11. North America Automotive Foam Market Analysis
11.1. Key Findings
11.2. North America Automotive Foam Market Overview
11.3. North America Automotive Foam Market Value Share Analysis, By Types
11.4. North America Automotive Foam Market Forecast, By Types
11.4.1. Polyurethane
11.4.2. Polyolefin
11.4.3. Styrenic
11.4.4. Polyvinyl chloride
11.4.5. Phenolic
11.4.6. Melamine
11.4.7. Others
11.5. North America Automotive Foam Market Value Share Analysis, By Applications
11.6. North America Automotive Foam Market Forecast, By Applications
11.6.1. Seats
11.6.2. Instrument panels
11.6.3. Headliners
11.6.4. Door panels & water shields
11.6.5. General interiors and exteriors
11.6.6. Gaskets & NVH
11.6.7. others
11.7. North America Automotive Foam Market Value Share Analysis, by End User
11.8. North America Automotive Foam Market Forecast, by End User
11.8.1. Heavy Commercial Vehicles
11.8.2. Light Commercial Vehicles
11.8.3. Passenger Cars
11.9. North America Automotive Foam Market Value Share Analysis, by Country
11.10. North America Automotive Foam Market Forecast, by Country
11.10.1. U.S.
11.10.2. Canada
11.11. North America Automotive Foam Market Analysis, by Country
11.12. U.S. Automotive Foam Market Forecast, By Types
11.12.1. Polyurethane
11.12.2. Polyolefin
11.12.3. Styrenic
11.12.4. Polyvinyl chloride
11.12.5. Phenolic
11.12.6. Melamine
11.12.7. Others
11.13. U.S. Automotive Foam Market Forecast, By Applications
11.13.1. Seats
11.13.2. Instrument panels
11.13.3. Headliners
11.13.4. Door panels & water shields
11.13.5. General interiors and exteriors
11.13.6. Gaskets & NVH
11.13.7. others
11.14. U.S. Automotive Foam Market Forecast, by End User
11.14.1. Heavy Commercial Vehicles
11.14.2. Light Commercial Vehicles
11.14.3. Passenger Cars
11.15. Canada Automotive Foam Market Forecast, By Types
11.15.1. Polyurethane
11.15.2. Polyolefin
11.15.3. Styrenic
11.15.4. Polyvinyl chloride
11.15.5. Phenolic
11.15.6. Melamine
11.15.7. Others
11.16. Canada Automotive Foam Market Forecast, By Applications
11.16.1. Seats
11.16.2. Instrument panels
11.16.3. Headliners
11.16.4. Door panels & water shields
11.16.5. General interiors and exteriors
11.16.6. Gaskets & NVH
11.16.7. others
11.17. Canada Automotive Foam Market Forecast, by End User
11.17.1. Heavy Commercial Vehicles
11.17.2. Light Commercial Vehicles
11.17.3. Passenger Cars
11.18. North America Automotive Foam Market Attractiveness Analysis
11.18.1. By Types
11.18.2. By Applications
11.18.3. By End User
11.19. PEST Analysis
11.20. Key Trends
11.21. Key Development

12. Europe Automotive Foam Market Analysis
12.1. Key Findings
12.2. Europe Automotive Foam Market Overview
12.3. Europe Automotive Foam Market Value Share Analysis, By Types
12.4. Europe Automotive Foam Market Forecast, By Types
12.4.1. Polyurethane
12.4.2. Polyolefin
12.4.3. Styrenic
12.4.4. Polyvinyl chloride
12.4.5. Phenolic
12.4.6. Melamine
12.4.7. Others
12.5. Europe Automotive Foam Market Value Share Analysis, By Applications
12.6. Europe Automotive Foam Market Forecast, By Applications
12.6.1. Seats
12.6.2. Instrument panels
12.6.3. Headliners
12.6.4. Door panels & water shields
12.6.5. General interiors and exteriors
12.6.6. Gaskets & NVH
12.6.7. others
12.7. Europe Automotive Foam Market Value Share Analysis, by End User
12.8. Europe Automotive Foam Market Forecast, by End User
12.8.1. Heavy Commercial Vehicles
12.8.2. Light Commercial Vehicles
12.8.3. Passenger Cars
12.9. Europe Automotive Foam Market Value Share Analysis, by Country
12.10. Europe Automotive Foam 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. Rest of Europe
12.11. Europe Automotive Foam Market Analysis, by Country
12.12. Germany Automotive Foam Market Forecast, By Types
12.12.1. Polyurethane
12.12.2. Polyolefin
12.12.3. Styrenic
12.12.4. Polyvinyl chloride
12.12.5. Phenolic
12.12.6. Melamine
12.12.7. Others
12.13. Germany Automotive Foam Market Forecast, By Applications
12.13.1. Seats
12.13.2. Instrument panels
12.13.3. Headliners
12.13.4. Door panels & water shields
12.13.5. General interiors and exteriors
12.13.6. Gaskets & NVH
12.13.7. others
12.14. Germany Automotive Foam Market Forecast, by End User
12.14.1. Heavy Commercial Vehicles
12.14.2. Light Commercial Vehicles
12.14.3. Passenger Cars
12.15. U.K. Automotive Foam Market Forecast, By Types
12.15.1. Polyurethane
12.15.2. Polyolefin
12.15.3. Styrenic
12.15.4. Polyvinyl chloride
12.15.5. Phenolic
12.15.6. Melamine
12.15.7. Others
12.16. U.K. Automotive Foam Market Forecast, By Applications
12.16.1. Seats
12.16.2. Instrument panels
12.16.3. Headliners
12.16.4. Door panels & water shields
12.16.5. General interiors and exteriors
12.16.6. Gaskets & NVH
12.16.7. others
12.17. U.K. Automotive Foam Market Forecast, by End User
12.17.1. Heavy Commercial Vehicles
12.17.2. Light Commercial Vehicles
12.17.3. Passenger Cars
12.18. France Automotive Foam Market Forecast, By Types
12.18.1. Polyurethane
12.18.2. Polyolefin
12.18.3. Styrenic
12.18.4. Polyvinyl chloride
12.18.5. Phenolic
12.18.6. Melamine
12.18.7. Others
12.19. France Automotive Foam Market Forecast, By Applications
12.19.1. Seats
12.19.2. Instrument panels
12.19.3. Headliners
12.19.4. Door panels & water shields
12.19.5. General interiors and exteriors
12.19.6. Gaskets & NVH
12.19.7. others
12.20. France Automotive Foam Market Forecast, by End User
12.20.1. Heavy Commercial Vehicles
12.20.2. Light Commercial Vehicles
12.20.3. Passenger Cars
12.21. Italy Automotive Foam Market Forecast, By Types
12.21.1. Polyurethane
12.21.2. Polyolefin
12.21.3. Styrenic
12.21.4. Polyvinyl chloride
12.21.5. Phenolic
12.21.6. Melamine
12.21.7. Others
12.22. Italy Automotive Foam Market Forecast, By Applications
12.22.1. Seats
12.22.2. Instrument panels
12.22.3. Headliners
12.22.4. Door panels & water shields
12.22.5. General interiors and exteriors
12.22.6. Gaskets & NVH
12.22.7. others
12.23. Italy Automotive Foam Market Forecast, by End User
12.23.1. Heavy Commercial Vehicles
12.23.2. Light Commercial Vehicles
12.23.3. Passenger Cars
12.24. Spain Automotive Foam Market Forecast, By Types
12.24.1. Polyurethane
12.24.2. Polyolefin
12.24.3. Styrenic
12.24.4. Polyvinyl chloride
12.24.5. Phenolic
12.24.6. Melamine
12.24.7. Others
12.25. Spain Automotive Foam Market Forecast, By Applications
12.25.1. Seats
12.25.2. Instrument panels
12.25.3. Headliners
12.25.4. Door panels & water shields
12.25.5. General interiors and exteriors
12.25.6. Gaskets & NVH
12.25.7. others
12.26. Spain Automotive Foam Market Forecast, by End User
12.26.1. Heavy Commercial Vehicles
12.26.2. Light Commercial Vehicles
12.26.3. Passenger Cars
12.27. Rest of Europe Automotive Foam Market Forecast, By Types
12.27.1. Polyurethane
12.27.2. Polyolefin
12.27.3. Styrenic
12.27.4. Polyvinyl chloride
12.27.5. Phenolic
12.27.6. Melamine
12.27.7. Others
12.28. Rest of Europe Automotive Foam Market Forecast, By Applications
12.28.1. Seats
12.28.2. Instrument panels
12.28.3. Headliners
12.28.4. Door panels & water shields
12.28.5. General interiors and exteriors
12.28.6. Gaskets & NVH
12.28.7. others
12.29. Rest of Europe Automotive Foam Market Forecast, by End User
12.29.1. Heavy Commercial Vehicles
12.29.2. Light Commercial Vehicles
12.29.3. Passenger Cars
12.30. Europe Automotive Foam Market Attractiveness Analysis
12.30.1. By Types
12.30.2. By Applications
12.30.3. By End User
12.31. PEST Analysis
12.32. Key Trends
12.33. Key Development

13. Asia Pacific Automotive Foam Market Analysis
13.1. Key Findings
13.2. Asia Pacific Automotive Foam Market Overview
13.3. Asia Pacific Automotive Foam Market Value Share Analysis, By Types
13.4. Asia Pacific Automotive Foam Market Forecast, By Types
13.4.1. Polyurethane
13.4.2. Polyolefin
13.4.3. Styrenic
13.4.4. Polyvinyl chloride
13.4.5. Phenolic
13.4.6. Melamine
13.4.7. Others
13.5. Asia Pacific Automotive Foam Market Value Share Analysis, By Applications
13.6. Asia Pacific Automotive Foam Market Forecast, By Applications
13.6.1. Seats
13.6.2. Instrument panels
13.6.3. Headliners
13.6.4. Door panels & water shields
13.6.5. General interiors and exteriors
13.6.6. Gaskets & NVH
13.6.7. others
13.7. Asia Pacific Automotive Foam Market Value Share Analysis, by End User
13.8. Asia Pacific Automotive Foam Market Forecast, by End User
13.8.1. Heavy Commercial Vehicles
13.8.2. Light Commercial Vehicles
13.8.3. Passenger Cars
13.9. Asia Pacific Automotive Foam Market Value Share Analysis, by Country
13.10. Asia Pacific Automotive Foam Market Forecast, by Country
13.10.1. China
13.10.2. India
13.10.3. Japan
13.10.4. ASEAN
13.10.5. Rest of Asia Pacific
13.11. Asia Pacific Automotive Foam Market Analysis, by Country
13.12. China Automotive Foam Market Forecast, By Types
13.12.1. Polyurethane
13.12.2. Polyolefin
13.12.3. Styrenic
13.12.4. Polyvinyl chloride
13.12.5. Phenolic
13.12.6. Melamine
13.12.7. Others
13.13. China Automotive Foam Market Forecast, By Applications
13.13.1. Seats
13.13.2. Instrument panels
13.13.3. Headliners
13.13.4. Door panels & water shields
13.13.5. General interiors and exteriors
13.13.6. Gaskets & NVH
13.13.7. others
13.14. China Automotive Foam Market Forecast, by End User
13.14.1. Heavy Commercial Vehicles
13.14.2. Light Commercial Vehicles
13.14.3. Passenger Cars
13.15. India Automotive Foam Market Forecast, By Types
13.15.1. Polyurethane
13.15.2. Polyolefin
13.15.3. Styrenic
13.15.4. Polyvinyl chloride
13.15.5. Phenolic
13.15.6. Melamine
13.15.7. Others
13.16. India Automotive Foam Market Forecast, By Applications
13.16.1. Seats
13.16.2. Instrument panels
13.16.3. Headliners
13.16.4. Door panels & water shields
13.16.5. General interiors and exteriors
13.16.6. Gaskets & NVH
13.16.7. others
13.17. India Automotive Foam Market Forecast, by End User
13.17.1. Heavy Commercial Vehicles
13.17.2. Light Commercial Vehicles
13.17.3. Passenger Cars
13.18. Japan Automotive Foam Market Forecast, By Types
13.18.1. Polyurethane
13.18.2. Polyolefin
13.18.3. Styrenic
13.18.4. Polyvinyl chloride
13.18.5. Phenolic
13.18.6. Melamine
13.18.7. Others
13.19. Japan Automotive Foam Market Forecast, By Applications
13.19.1. Seats
13.19.2. Instrument panels
13.19.3. Headliners
13.19.4. Door panels & water shields
13.19.5. General interiors and exteriors
13.19.6. Gaskets & NVH
13.19.7. others
13.20. Japan Automotive Foam Market Forecast, by End User
13.20.1. Heavy Commercial Vehicles
13.20.2. Light Commercial Vehicles
13.20.3. Passenger Cars
13.21. ASEAN Automotive Foam Market Forecast, By Types
13.21.1. Polyurethane
13.21.2. Polyolefin
13.21.3. Styrenic
13.21.4. Polyvinyl chloride
13.21.5. Phenolic
13.21.6. Melamine
13.21.7. Others
13.22. ASEAN Automotive Foam Market Forecast, By Applications
13.22.1. Seats
13.22.2. Instrument panels
13.22.3. Headliners
13.22.4. Door panels & water shields
13.22.5. General interiors and exteriors
13.22.6. Gaskets & NVH
13.22.7. others
13.23. ASEAN Automotive Foam Market Forecast, by End User
13.23.1. Heavy Commercial Vehicles
13.23.2. Light Commercial Vehicles
13.23.3. Passenger Cars
13.24. Rest of Asia Pacific Automotive Foam Market Forecast, By Types
13.24.1. Polyurethane
13.24.2. Polyolefin
13.24.3. Styrenic
13.24.4. Polyvinyl chloride
13.24.5. Phenolic
13.24.6. Melamine
13.24.7. Others
13.25. Rest of Asia Pacific Automotive Foam Market Forecast, By Applications
13.25.1. Seats
13.25.2. Instrument panels
13.25.3. Headliners
13.25.4. Door panels & water shields
13.25.5. General interiors and exteriors
13.25.6. Gaskets & NVH
13.25.7. others
13.26. Rest of Asia Pacific Automotive Foam Market Forecast, by End User
13.26.1. Heavy Commercial Vehicles
13.26.2. Light Commercial Vehicles
13.26.3. Passenger Cars
13.27. Asia Pacific Automotive Foam Market Attractiveness Analysis
13.27.1. By Types
13.27.2. By Applications
13.27.3. By End User
13.28. PEST Analysis
13.29. Key Trends
13.30. Key Development

14. Middle East & Africa Automotive Foam Market Analysis
14.1. Key Findings
14.2. Middle East & Africa Automotive Foam Market Overview
14.3. Middle East & Africa Automotive Foam Market Value Share Analysis, By Types
14.4. Middle East & Africa Automotive Foam Market Forecast, By Types
14.4.1. Polyurethane
14.4.2. Polyolefin
14.4.3. Styrenic
14.4.4. Polyvinyl chloride
14.4.5. Phenolic
14.4.6. Melamine
14.4.7. Others
14.5. Middle East & Africa Automotive Foam Market Value Share Analysis, By Applications
14.6. Middle East & Africa Automotive Foam Market Forecast, By Applications
14.6.1. Seats
14.6.2. Instrument panels
14.6.3. Headliners
14.6.4. Door panels & water shields
14.6.5. General interiors and exteriors
14.6.6. Gaskets & NVH
14.6.7. others
14.7. Middle East & Africa Automotive Foam Market Value Share Analysis, by End User
14.8. Middle East & Africa Automotive Foam Market Forecast, by End User
14.8.1. Heavy Commercial Vehicles
14.8.2. Light Commercial Vehicles
14.8.3. Passenger Cars
14.9. Middle East & Africa Automotive Foam Market Value Share Analysis, by Country
14.10. Middle East & Africa Automotive Foam 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 Foam Market Analysis, by Country
14.12. GCC Automotive Foam Market Forecast, By Types
14.12.1. Polyurethane
14.12.2. Polyolefin
14.12.3. Styrenic
14.12.4. Polyvinyl chloride
14.12.5. Phenolic
14.12.6. Melamine
14.12.7. Others
14.13. GCC Automotive Foam Market Forecast, By Applications
14.13.1. Seats
14.13.2. Instrument panels
14.13.3. Headliners
14.13.4. Door panels & water shields
14.13.5. General interiors and exteriors
14.13.6. Gaskets & NVH
14.13.7. others
14.14. GCC Automotive Foam Market Forecast, by End User
14.14.1. Heavy Commercial Vehicles
14.14.2. Light Commercial Vehicles
14.14.3. Passenger Cars
14.15. South Africa Automotive Foam Market Forecast, By Types
14.15.1. Polyurethane
14.15.2. Polyolefin
14.15.3. Styrenic
14.15.4. Polyvinyl chloride
14.15.5. Phenolic
14.15.6. Melamine
14.15.7. Others
14.16. South Africa Automotive Foam Market Forecast, By Applications
14.16.1. Seats
14.16.2. Instrument panels
14.16.3. Headliners
14.16.4. Door panels & water shields
14.16.5. General interiors and exteriors
14.16.6. Gaskets & NVH
14.16.7. others
14.17. South Africa Automotive Foam Market Forecast, by End User
14.17.1. Heavy Commercial Vehicles
14.17.2. Light Commercial Vehicles
14.17.3. Passenger Cars
14.18. Rest of Middle East & Africa Automotive Foam Market Forecast, By Types
14.18.1. Polyurethane
14.18.2. Polyolefin
14.18.3. Styrenic
14.18.4. Polyvinyl chloride
14.18.5. Phenolic
14.18.6. Melamine
14.18.7. Others
14.19. Rest of Middle East & Africa Automotive Foam Market Forecast, By Applications
14.19.1. Seats
14.19.2. Instrument panels
14.19.3. Headliners
14.19.4. Door panels & water shields
14.19.5. General interiors and exteriors
14.19.6. Gaskets & NVH
14.19.7. others
14.20. Rest of Middle East & Africa Automotive Foam Market Forecast, by End User
14.20.1. Heavy Commercial Vehicles
14.20.2. Light Commercial Vehicles
14.20.3. Passenger Cars
14.21. Middle East & Africa Automotive Foam Market Attractiveness Analysis
14.21.1. By Types
14.21.2. By Applications
14.21.3. By End User
14.22. PEST Analysis
14.23. Key Trends
14.24. Key Development

15. South America Automotive Foam Market Analysis
15.1. Key Findings
15.2. South America Automotive Foam Market Overview
15.3. South America Automotive Foam Market Value Share Analysis, By Types
15.4. South America Automotive Foam Market Forecast, By Types
15.4.1. Polyurethane
15.4.2. Polyolefin
15.4.3. Styrenic
15.4.4. Polyvinyl chloride
15.4.5. Phenolic
15.4.6. Melamine
15.4.7. Others
15.5. South America Automotive Foam Market Value Share Analysis, By Applications
15.6. South America Automotive Foam Market Forecast, By Applications
15.6.1. Seats
15.6.2. Instrument panels
15.6.3. Headliners
15.6.4. Door panels & water shields
15.6.5. General interiors and exteriors
15.6.6. Gaskets & NVH
15.6.7. others
15.7. South America Automotive Foam Market Value Share Analysis, by End User
15.8. South America Automotive Foam Market Forecast, by End User
15.8.1. Heavy Commercial Vehicles
15.8.2. Light Commercial Vehicles
15.8.3. Passenger Cars
15.9. South America Automotive Foam Market Value Share Analysis, by Country
15.10. South America Automotive Foam Market Forecast, by Country
15.10.1. Brazil
15.10.2. Mexico
15.10.3. Rest of South America
15.11. South America Automotive Foam Market Analysis, by Country
15.12. Brazil Automotive Foam Market Forecast, By Types
15.12.1. Polyurethane
15.12.2. Polyolefin
15.12.3. Styrenic
15.12.4. Polyvinyl chloride
15.12.5. Phenolic
15.12.6. Melamine
15.12.7. Others
15.13. Brazil Automotive Foam Market Forecast, By Applications
15.13.1. Seats
15.13.2. Instrument panels
15.13.3. Headliners
15.13.4. Door panels & water shields
15.13.5. General interiors and exteriors
15.13.6. Gaskets & NVH
15.13.7. others
15.14. Brazil Automotive Foam Market Forecast, by End User
15.14.1. Heavy Commercial Vehicles
15.14.2. Light Commercial Vehicles
15.14.3. Passenger Cars
15.15. Mexico Automotive Foam Market Forecast, By Types
15.15.1. Polyurethane
15.15.2. Polyolefin
15.15.3. Styrenic
15.15.4. Polyvinyl chloride
15.15.5. Phenolic
15.15.6. Melamine
15.15.7. Others
15.16. Mexico Automotive Foam Market Forecast, By Applications
15.16.1. Seats
15.16.2. Instrument panels
15.16.3. Headliners
15.16.4. Door panels & water shields
15.16.5. General interiors and exteriors
15.16.6. Gaskets & NVH
15.16.7. others
15.17. Mexico Automotive Foam Market Forecast, by End User
15.17.1. Heavy Commercial Vehicles
15.17.2. Light Commercial Vehicles
15.17.3. Passenger Cars
15.18. Rest of South America Automotive Foam Market Forecast, By Types
15.18.1. Polyurethane
15.18.2. Polyolefin
15.18.3. Styrenic
15.18.4. Polyvinyl chloride
15.18.5. Phenolic
15.18.6. Melamine
15.18.7. Others
15.19. Rest of South America Automotive Foam Market Forecast, By Applications
15.19.1. Seats
15.19.2. Instrument panels
15.19.3. Headliners
15.19.4. Door panels & water shields
15.19.5. General interiors and exteriors
15.19.6. Gaskets & NVH
15.19.7. others
15.20. Rest of South America Automotive Foam Market Forecast, by End User
15.20.1. Heavy Commercial Vehicles
15.20.2. Light Commercial Vehicles
15.20.3. Passenger Cars
15.21. South America Automotive Foam Market Attractiveness Analysis
15.21.1. By Types
15.21.2. By Applications
15.21.3. By End User
15.22. PEST Analysis
15.23. Key Trends
15.24. Key Development

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, Applications and R&D investment
16.2.2. New Product Launches and Product Enhancements
16.2.3. Market Consolidation
16.2.3.1. M&A by Regions, Investment and Applications
16.2.3.2. M&A Key Players, Forward Integration and Backward
Integration
16.3. Company Profiles: Key Players
16.3.1. Johnson Controls (U.S.)
16.3.1.1. Company Overview
16.3.1.2. Financial Overview
16.3.1.3. Product Portfolio
16.3.1.4. Business Strategy
16.3.1.5. Recent Developments
16.3.1.6. Company Footprint
16.3.2. Woodbridge Foam Corporation (Canada)
16.3.3. Lear Corporation (U.S.)
16.3.4. Bridgestone Corporation (Tokyo)
16.3.5. BASF (Germany)
16.3.6. Recticel (Belgium)
16.3.7. Vitafoams (U.K.)
16.3.8. Armacell (Germany)
16.3.9. The Dow Chemical Company (U.S.)
16.3.10. Rogers (U.S.)
16.3.11. Saint-Gobain (France)
16.3.12. Armacell
16.3.13. Grand Rapids Foam Technologies
16.3.14. Eurofoam Hungary
16.3.15. Zotefoams Plc
16.3.16. Caligen Foam
16.3.17. UFP Technologies
16.3.18. Foam Supplies
16.3.19. Eurofoam Hungary
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