세계의 전기자동차용 실리콘 시장 규모 조사 및 예측 : 제품별, 충전 유형별, 차종별, 지역별 분석(2023-2030년)

Global Silicone in Electric Vehicles Market is valued at approximately USD 6.03 billion in 2022 and is anticipated to grow with a healthy growth rate of more than 9.4% over the forecast period 2023-2030. Silicone in Electric Vehicles refers to the use of silicone-based materials used in various components and applications within electric vehicles (EVs). Silicone, a versatile polymer, finds multiple uses in EVs due to its unique properties such as thermal stability, electrical insulation, resistance to extreme temperatures, and durability. The Silicone in Electric Vehicles market is expanding because of factors such as rapid urbanization and increasing demand for electric cars. As a result, the demand for Silicone in Electric Vehicles has progressively increased in the international market during the forecast period 2023-2030.

Electric vehicles rely on various electronic components and systems for propulsion, energy management, and safety. Silicone is a versatile material with properties such as thermal stability, electrical insulation, and resistance to extreme temperatures, making it suitable for use in components like electric vehicle batteries, connectors, seals, gaskets, and thermal management systems. According to Statista, the total number of electric bus registrations, in 2021 China accounts for 50,000 registrations followed by Europe with 4000 registrations and reached up to 54000 and 5000 registrations respectively in the year 2022. Another important factor that drives the Silicone in Electric Vehicles market is rapid growth in urbanization. Urbanization often fosters innovation and technological advancements to address urban challenges. As cities seek more sustainable transportation solutions, there is a continuous push for advancements in electric vehicle technology. Silicone plays a crucial role in enhancing the performance, durability, and safety of various components in EVs, including batteries, power electronics, and thermal management systems. The demand for silicone in these applications is expected to rise with the advancement of EV technology. In addition, as per Statista, the global urbanization rate was 57% in 2022. North America has the highest amount of urbanization, with more than four-fifths of the population living in cities. Moreover, growing demand for lightweight motor vehicles and government initiatives towards emissions is anticipated to create a lucrative growth opportunity for the market over the forecast period. However, the high integration cost of silicone in electric vehicles and technical complexities are going to impede overall market growth throughout the forecast period of 2023-2030.

The key regions considered for the Global Silicone in Electric Vehicles Market study include Asia Pacific, North America, Europe, Latin America, and Middle East & Africa. Asia Pacific dominated the market in 2022 owing to the growing rate of urbanization and rising demand for electric vehicles in the region. The region's dominant performance is anticipated to propel the overall demand for Silicone in Electric Vehicles. Furthermore, North America is expected to grow fastest during the forecast period, owing to factors such as supportive government policies and regulations to promote the adoption of electric vehicles in the region. Government incentives, subsidies, and mandates for electric vehicles encourage consumers to switch from traditional internal combustion engine vehicles to electric ones. This shift leads to a surge in the production and sales of electric vehicles, subsequently driving the demand for components and materials used in EV manufacturing, including silicone.

Major market players included in this report are:

• Wacker Chemie AG
• Elkem Silicones
• Dow Inc
• H.B. Fuller Company
• Nexeon Limited
• ACC Silicones Ltd.
• KCC Corporation
• Rogers Corporation
• LORD Corporation
• Shin-Etsu Chemical Co., Ltd.

Recent Developments in the Market:

• In June 2021, Dow unveiled three cutting-edge silicone technologies tailored for electric and hybrid-electric vehicle electronics applications. These latest additions to the portfolio - DOWSIL TC-2035 CV Adhesive, DOWSIL TC-4551 CV Gap Filler, and DOWSIL TC-4060 GB250 Thermal Gel - further enhance Dow's silicone offerings, addressing the evolving requirements of automotive electrification. These innovative products boast advanced attributes such as dependable performance, superior thermal conductivity, controlled volatility for efficient heat dissipation, and streamlined processing, ultimately boosting productivity.

Global Silicone in Electric Vehicles Market Report Scope:

• Historical Data - 2020 - 2021
• Base Year for Estimation - 2022
• Forecast period - 2023-2030
• Report Coverage - Revenue forecast, Company Ranking, Competitive Landscape, Growth factors, and Trends
• Segments Covered - Product, Charging Type, Vehicle Type, Region
• Regional Scope - North America; Europe; Asia Pacific; Latin America; Middle East & Africa
• Customization Scope - Free report customization (equivalent to up to 8 analysts' working hours) with purchase. Addition or alteration to country, regional & segment scope*

The objective of the study is to define the market sizes of different segments & countries in recent years and to forecast the values to the coming years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within countries involved in the study.

The report also caters to detailed information about the crucial aspects such as driving factors & challenges that will define the future growth of the market. Additionally, it also incorporates potential opportunities in micro markets for stakeholders to invest along with a detailed analysis of the competitive landscape and product offerings of key players. The detailed segments and sub-segment of the market are explained below:

By Product

• Elastomers
• Fluids
• Resins
• Others

By Charging Type

• Plugin Hybrid Electric Vehicle (PHEV)
• Battery Electric Vehicle (BEV)

By Vehicle Type

• Light Motor Vehicle
• Commercial Motor Vehicle

By Region:

• North America
• U.S.
• Canada
• Europe
• UK
• Germany
• France
• Spain
• Italy
• ROE
• Asia Pacific
• China
• India
• Japan
• Australia
• South Korea
• RoAPAC
• Latin America
• Brazil
• Mexico
• Middle East & Africa
• Saudi Arabia
• South Africa
• Rest of Middle East & Africa

Table of Contents

Chapter 1.Executive Summary

• 1.1.Market Snapshot
• 1.2.Global & Segmental Market Estimates & Forecasts, 2020-2030 (USD Billion)
  • 1.2.1.Silicone in Electric Vehicles Market, by Region, 2020-2030 (USD Billion)
  • 1.2.2.Silicone in Electric Vehicles Market, by Product, 2020-2030 (USD Billion)
  • 1.2.3.Silicone in Electric Vehicles Market, by Charging Type, 2020-2030 (USD Billion)
  • 1.2.4.Silicone in Electric Vehicles Market, by Vehicle Type, 2020-2030 (USD Billion)
• 1.3.Key Trends
• 1.4.Estimation Methodology
• 1.5.Research Assumption

Chapter 2.Global Silicone in Electric Vehicles Market Definition and Scope

• 2.1.Objective of the Study
• 2.2.Market Definition & Scope
  • 2.2.1.Industry Evolution
  • 2.2.2.Scope of the Study
• 2.3.Years Considered for the Study
• 2.4.Currency Conversion Rates

Chapter 3.Global Silicone in Electric Vehicles Market Dynamics

• 3.1.Silicone in Electric Vehicles Market Impact Analysis (2020-2030)
  • 3.1.1.Market Drivers
    • 3.1.1.1.Rising Number of Electric Vehicles
    • 3.1.1.2.Increasing Rate of Urbanization
  • 3.1.2.Market Challenges
    • 3.1.2.1.High Integration Cost of Silicone in Electric Vehicles
    • 3.1.2.2.Technical Complexities
  • 3.1.3.Market Opportunities
    • 3.1.3.1.Growing Demand for Light Weight Motor Vehicles
    • 3.1.3.2.Government Initiatives towards Emissions

Chapter 4.Global Silicone in Electric Vehicles Market Industry Analysis

• 4.1.Porter's 5 Force Model
  • 4.1.1.Bargaining Power of Suppliers
  • 4.1.2.Bargaining Power of Buyers
  • 4.1.3.Threat of New Entrants
  • 4.1.4.Threat of Substitutes
  • 4.1.5.Competitive Rivalry
• 4.2.Porter's 5 Force Impact Analysis
• 4.3.PEST Analysis
  • 4.3.1.Political
  • 4.3.2.Economical
  • 4.3.3.Social
  • 4.3.4.Technological
  • 4.3.5.Environmental
  • 4.3.6.Legal
• 4.4.Top investment opportunity
• 4.5.Top winning strategies
• 4.6.COVID-19 Impact Analysis
• 4.7.Disruptive Trends
• 4.8.Industry Expert Perspective
• 4.9.Analyst Recommendation & Conclusion

Chapter 5.Global Silicone in Electric Vehicles Market, by Product

• 5.1.Market Snapshot
• 5.2.Global Silicone in Electric Vehicles Market by Product, Performance - Potential Analysis
• 5.3.Global Silicone in Electric Vehicles Market Estimates & Forecasts by Product 2020-2030 (USD Billion)
• 5.4.Silicone in Electric Vehicles Market, Sub Segment Analysis
  • 5.4.1.Elastomers
  • 5.4.2.Fluids
  • 5.4.3.Resins
  • 5.4.4.Others

Chapter 6.Global Silicone in Electric Vehicles Market, by Charging Type

• 6.1.Market Snapshot
• 6.2.Global Silicone in Electric Vehicles Market by Charging Type, Performance - Potential Analysis
• 6.3.Global Silicone in Electric Vehicles Market Estimates & Forecasts by Charging Type 2020-2030 (USD Billion)
• 6.4.Silicone in Electric Vehicles Market, Sub Segment Analysis
  • 6.4.1.Plugin Hybrid Electric Vehicle (PHEV)
  • 6.4.2.Battery Electric Vehicle (BEV)

Chapter 7.Global Silicone in Electric Vehicles Market, by Vehicle Type

• 7.1.Market Snapshot
• 7.2.Global Silicone in Electric Vehicles Market by Vehicle Type, Performance - Potential Analysis
• 7.3.Global Silicone in Electric Vehicles Market Estimates & Forecasts by Vehicle Type 2020-2030 (USD Billion)
• 7.4.Silicone in Electric Vehicles Market, Sub Segment Analysis
  • 7.4.1.Light Motor Vehicle
  • 7.4.2.Commercial Motor Vehicle

Chapter 8.Global Silicone in Electric Vehicles Market, Regional Analysis

• 8.1.Top Leading Countries
• 8.2.Top Emerging Countries
• 8.3.Silicone in Electric Vehicles Market, Regional Market Snapshot
• 8.4.North America Silicone in Electric Vehicles Market
  • 8.4.1.U.S. Silicone in Electric Vehicles Market
    • 8.4.1.1.Product breakdown estimates & forecasts, 2020-2030
    • 8.4.1.2.Charging Type breakdown estimates & forecasts, 2020-2030
    • 8.4.1.3.Vehicle Type breakdown estimates & forecasts, 2020-2030
  • 8.4.2.Canada Silicone in Electric Vehicles Market
• 8.5.Europe Silicone in Electric Vehicles Market Snapshot
  • 8.5.1.U.K. Silicone in Electric Vehicles Market
  • 8.5.2.Germany Silicone in Electric Vehicles Market
  • 8.5.3.France Silicone in Electric Vehicles Market
  • 8.5.4.Spain Silicone in Electric Vehicles Market
  • 8.5.5.Italy Silicone in Electric Vehicles Market
  • 8.5.6.Rest of Europe Silicone in Electric Vehicles Market
• 8.6.Asia-Pacific Silicone in Electric Vehicles Market Snapshot
  • 8.6.1.China Silicone in Electric Vehicles Market
  • 8.6.2.India Silicone in Electric Vehicles Market
  • 8.6.3.Japan Silicone in Electric Vehicles Market
  • 8.6.4.Australia Silicone in Electric Vehicles Market
  • 8.6.5.South Korea Silicone in Electric Vehicles Market
  • 8.6.6.Rest of Asia Pacific Silicone in Electric Vehicles Market
• 8.7.Latin America Silicone in Electric Vehicles Market Snapshot
  • 8.7.1.Brazil Silicone in Electric Vehicles Market
  • 8.7.2.Mexico Silicone in Electric Vehicles Market
• 8.8.Middle East & Africa Silicone in Electric Vehicles Market
  • 8.8.1.Saudi Arabia Silicone in Electric Vehicles Market
  • 8.8.2.South Africa Silicone in Electric Vehicles Market
  • 8.8.3.Rest of Middle East & Africa Silicone in Electric Vehicles Market

Chapter 9.Competitive Intelligence

• 9.1.Key Company SWOT Analysis
• 9.2.Top Market Strategies
• 9.3.Company Profiles
  • 9.3.1. Wacker Chemie AG
    • 9.3.1.1.Key Information
    • 9.3.1.2.Overview
    • 9.3.1.3.Financial (Subject to Data Availability)
    • 9.3.1.4.Product Summary
    • 9.3.1.5.Recent Developments
  • 9.3.2.Elkem Silicones
  • 9.3.3.Dow Inc
  • 9.3.4.H.B. Fuller Company
  • 9.3.5.Nexeon Limited
  • 9.3.6.ACC Silicones Ltd
  • 9.3.7.KCC Corporation
  • 9.3.8.Rogers Corporation
  • 9.3.9.LORD Corporation
  • 9.3.10.Shin-Etsu Chemical Co., Ltd

Chapter 10.Research Process

• 10.1.Research Process
  • 10.1.1.Data Mining
  • 10.1.2.Analysis
  • 10.1.3.Market Estimation
  • 10.1.4.Validation
  • 10.1.5.Publishing
• 10.2.Research Attributes
• 10.3.Research Assumption