The "Global Market for Polymers Used in Electric Vehicles" report has been added to ResearchAndMarkets.com's offering.
The scope of this report is broad, covering various technologies available in the market for polymers in electric vehicles and potential applications across various sectors. The market for polymers in electric vehicles is broken down by product segment. Revenue forecasts from 2018 to 2023 are given for each product and application segment, with estimated values derived from the total revenues of manufacturers.
This report also includes a discussion of the main players across each regional market for polymers in electric vehicles. Further, it explains the main drivers and regional dynamics of the market and current trends within the industry.
This report concludes with a special focus on the vendor landscape that includes detailed profiles of the main vendors in the market.
The electric vehicles market has been experiencing significant growth, largely driven by the need to cater to future energy requirements. The need for sustainable transportation has been resulting in the high adoption of electric vehicles across the globe.
The electric vehicle market forms an integral part of the automotive industry, thereby serving as a potential factor in achieving the reduced emission of pollutants and other greenhouse gasses. In addition, favorable government initiatives in countries globally is also increasing the production of electric vehicles, which in turn is expected to drive the demand for the polymer application.
This Report Includes:
- 99 data tables and 48 additional tables
- An overview of the global market for polymers used in electric vehicles
- Analyses of the global market trends with data from 2017 and 2018, and projections of compound annual growth rates (CAGRs) through 2023
- Insights into the govt. the regulatory framework, investment analysis, growth indicators and key decision supporting factors
- Description of polymer properties and discussion on their ability to control carbon footprints
- Comparative study of engineering plastics and elastomers, and description of their potential applications
- Profile description of the leading market players, including BASF, DSM Engineering Plastics, Evonik, Solvay SA, LyondellBasell Industries and SABIC
As automotive electronic components are becoming smaller in size and more compact, advanced polymers are finding ways to replace the traditional engineering ones, such as standard polyamides.
Manufacturers who develop a system-level approach in electric vehicles are coming up with new possibilities. For instance, the exclusive combination of advanced polymer attributes is enhancing the magnet wire insulation and slot liners in electric (EVs) plug-in hybrid electric vehicles (PHEVs) and hybrid electric (HEVs).
Advanced polymers offer advantages with respect to EV manufacture, design, and performance of fuel handling machinery. Their lighter weight helps maintain high fuel efficiency, and plastics have the ability to provide high impact strength and endure rupture, as well as check the fuel delivery systems from any leakage.
As engine temperatures and pressures continue to speed up, designers are focusing on next-generation metal replacements to handle demanding conditions while performing consistently in every weather condition.
With an aim to replace metal parts, automotive designers have gradually shifted to advanced polymers for electric insulation. The main objective of using polymers for insulation is not to compromise the dimensional and mechanical attributes of the batteries used in electric vehicles.
Key Topics Covered:
Chapter 1 Introduction
- Study Goals and Objectives
- Reasons for Doing This Study
- Scope of Report
- Information Sources
- Geographic Breakdown
- Analyst's Credentials
- Custom Research
- Related Reports
Chapter 2 Summary and Highlights
Chapter 3 Market and Technology Background
- Market Potential
- United States
- Electric Range
- Energy Consumption/Efficiency
- Electric Vehicle Driver-User Information
- Electric Vehicle Recycling and Reuse
- Vehicle Labeling
- Battery Attributes
- Battery Performance
- Battery Recycling
- Battery Reuse
- Battery Durability
- Onboard Charging System
- Offboard Charging Standard Related to the Vehicle
- Wireless Charging Standards
- Regulatory Incentives
- Growth Indicators and Key Decision Factors
- Growth of Electric Vehicles
- Increasing Demand for High-Performance Materials
- Favorable Government Policies
- Market Restraint Analysis
- Challenges of Recycling Lithium-Ion Batteries
- Charging Capacity Gap
- Porter's Five Forces Analysis: Polymer Use in Electric Vehicles Market
- High Bargaining Power of Buyers
- Moderate Bargaining Power of Suppliers
- Low Threat of Substitution
- High Competitive Rivalry
- Low to Moderate Threat of New Entrants
Chapter 4 Global Market for Polymers in Electric Vehicles by Product Segment
- Engineering Plastics
- ABS Plastics
- Polyamide Plastics
- Polycarbonate Plastics
- Polyurethane Plastics
- Polypropylene Plastics
- Polyvinyl Chloride Plastics
- Polyethylene Plastics
- PMMA Plastics
- Other Types of Engineered Plastics
- Rubber Elastomers
- Silicone Elastomers
- Fluoro Elastomers
- Other Types of Elastomers
Chapter 5 Global Market for Polymers in Electric Vehicles by Application
Chapter 6 Global Market for Polymers in Electric Vehicles by Region
- North America
- United States
- United Kingdom
- South Korea
- Rest of the World
Chapter 7 Industry Structure
Chapter 8 Competitive Landscape
- Mergers and Acquisitions
- Joint Ventures
- Other Strategies
- Market Share Analysis
Chapter 9 Company Profiles
- AGC Chemicals
- Asahi Kasei
- China Petrochemical Corporation (Sinopec Group)
- Daikin Industries Ltd.
- Dsm Engineering Plastics
- JSR Corp.
- LG Chem
- Lyondellbasell Industries
- Mitsubishi Engineering-Plastics Corp.
- Solvay SA
- Sumitomo Chemical
For more information about this report visit https://www.researchandmarkets.com/r/jr5k5a
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