September 13, 2024

Silicone in Electric Vehicles Market Size, Share, Report by 2034

The global silicone in electric vehicles market size was estimated at USD 6.70 billion in 2023 and is expected to reach around USD 18.04 billion by 2034. at a solid CAGR of 9.42% from 2024 to 2034.

Silicone in Electric Vehicles Market Size 2024 to 2034

 

Silicone materials are increasingly finding applications in the electric vehicles (EVs) sector, driven by their unique properties that cater to diverse needs within EV components. These materials are renowned for their thermal stability, flexibility, and resistance to extreme temperatures, making them ideal for use in various critical components such as battery systems, electric motors, and power electronics. Silicone’s ability to withstand high temperatures without losing its mechanical properties makes it crucial in enhancing the durability and reliability of EV components, thereby contributing to the overall performance and safety standards of electric vehicles.

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Silicone in Electric Vehicles Market Key Takeaways

  • North America is expected to attain the fastest rate of growth during the forecast period.
  • By product, the elastomers segment has contributed more than 48% of revenue share in 2023.
  • By product, the fluids segment is expected to grow at a CAGR of 9.23% during the forecast period.
  • By vehicle type, the light motor vehicle segment has generated the highest revenue share of 93% in 2023.
  • By vehicle type, the commercial motor vehicle segment is expected to grow at a notable rate during the forecast period.
  • By charging type, the battery electric vehicle (BEV) segment has held a major revenue share of 67% in 2023.
  • By charging type, the plugin hybrid electric vehicle (PHEV) segment is projected to grow with the highest CAGR during the forecast period.

Silicone in Electric Vehicles Market Trends

  • Thermal Management Solutions: Silicone-based thermal interface materials are widely used in EVs to manage heat dissipation efficiently. As EVs require effective thermal management due to high-power electronics and battery systems, silicone materials that offer high thermal conductivity and reliability are in demand.
  • Sealing and Gasket Applications: Silicone rubber is favored for its excellent sealing properties, resistance to extreme temperatures, and durability. In EVs, silicone seals and gaskets are used in battery packs, powertrain components, and electronics enclosures to ensure water resistance, dust protection, and reliability over the vehicle’s lifespan.
  • Wire and Cable Insulation: Silicone coatings and insulations are used extensively in EVs for wires and cables due to their flexibility, thermal stability, and resistance to abrasion and chemicals. This ensures reliable electrical performance and safety in demanding automotive environments.
  • Battery Protection and Encapsulation: Silicone materials are used in EV batteries for encapsulation and protection against moisture, vibration, and thermal shock. They help in extending battery life and maintaining performance by providing a barrier against environmental factors.
  • Lightweighting and Design Flexibility: Silicone’s versatility allows for innovative design solutions in EV components. It is used in lightweight parts where weight reduction is critical for enhancing vehicle efficiency and range. Silicone’s ability to be molded into complex shapes also supports the design of aerodynamic and streamlined EVs.

Silicone in Electric Vehicles Market Scope

Report CoverageDetails
Market Size by 2034USD 18.04 Billion
Market Size in 2023USD 6.70 Billion
Market Size in 2024USD 7.33 Billion
Market Growth Rate from 2024 to 2034CAGR of 9.42%
Largest MarketAsia Pacific
Base Year2023
Forecast Period2024 to 2034
Segments CoveredProduct, Charging Type, Vehicle Type, and Regions
Regions CoveredNorth America, Europe, Asia-Pacific, Latin America, and Middle East & Africa

Product Insights

Silicone materials are integral to several key product segments within the electric vehicle (EV) market. Silicone elastomers are extensively used for their flexibility and durability in applications such as seals, gaskets, and vibration damping components. These materials help maintain integrity and reduce wear in critical areas of EVs, ensuring long-term performance and reliability. Silicone fluids and greases play a crucial role in thermal management and lubrication, particularly in electric motors and bearings. Their high thermal stability and electrical insulation properties contribute to efficient operation and longevity of EV components, supporting optimal performance under varying conditions. Additionally, silicone resins are employed for coatings and encapsulation of electronic components, offering protection against moisture, chemicals, and mechanical stress, thereby enhancing the durability and reliability of EV systems. Silicone adhesives provide strong bonding and sealing solutions in EV assembly, ensuring structural integrity and environmental resistance, crucial for maintaining vehicle safety and efficiency over time.

Charging Type Insights

In terms of charging infrastructure, silicone materials are tailored to meet the demands of both AC (Alternating Current) and DC (Direct Current) charging technologies. AC charging stations utilize silicone insulation materials in cables, connectors, and internal components to ensure electrical safety, thermal management, and weather resistance. Meanwhile, DC fast charging systems rely on high-performance silicone materials that can withstand rapid charge-discharge cycles and high current loads. These materials contribute to efficient heat dissipation, reliability, and durability of fast-charging infrastructure, supporting the growing adoption of electric vehicles by facilitating convenient and rapid recharging capabilities.

  • In October 2023, Ionblox launched a lithium-silicon battery for powering electric vehicles (EVs). This battery pack supports extremely fast charging technology that charges 60% of the battery in 5 minutes and 80% in 10 minutes.
  • According to a report by Counterpoint’s Global Passenger Vehicle by Powertrain, battery electric vehicles (BEVs) sales are expected to reach 10 million units around the world in 2024.
  • In March 2024, BMW launched the electric vehicle named as ‘iX xDrive50’. This car is equipped with various superior features to ensure a smooth driving experience and comes with standard adaptive 2-axle air suspension for a comfortable ride along with a claimed driving range of up to 635 km.
  • For instance, in May 2024, the U.S. government announced an investment of around 1.3 billion US$ for developing EV infrastructure across the country.

Vehicle Type Insights

Electric vehicles encompass a variety of types, each utilizing silicone materials in distinct ways to optimize performance and functionality. Battery Electric Vehicles (BEVs) integrate silicone in battery packs, thermal management systems, and electric motors to enhance thermal stability, electrical insulation, and protection against environmental factors. Silicone’s ability to withstand extreme temperatures and provide reliable insulation is critical in maintaining battery efficiency and longevity. Plug-in Hybrid Electric Vehicles (PHEVs) benefit from silicone materials in hybrid powertrain components and battery management systems, supporting seamless integration of electric and combustion engine technologies while ensuring efficient operation and reduced environmental impact. In the realm of electric commercial vehicles, such as buses and trucks, silicone plays a vital role in heavy-duty applications, including battery packs, motor insulation, and charging infrastructure. These applications require robust materials that can endure rigorous operating conditions, ensuring safety, durability, and operational efficiency in commercial fleet environments.

Opportunities in the Silicone in Electric Vehicles Market

The silicone market within the electric vehicles sector presents several promising opportunities for growth and innovation. As the demand for EVs continues to surge globally, there is a parallel rise in the need for advanced materials that can enhance the efficiency, safety, and longevity of EV components. Silicones, with their superior thermal management capabilities, offer significant advantages in optimizing battery performance and longevity. Moreover, the expansion of charging infrastructure and advancements in EV technology are expected to further propel the demand for silicone-based solutions, creating opportunities for manufacturers to innovate and develop specialized products tailored to meet the stringent requirements of the electric vehicle industry.

Challenges Facing Silicone Adoption in Electric Vehicles

Despite its promising applications, the adoption of silicone materials in electric vehicles is not without challenges. One key hurdle is the cost-effectiveness and scalability of silicone production at volumes necessary to meet the growing demand from the EV industry. Manufacturers face the challenge of balancing performance requirements with cost considerations, especially in a competitive market environment. Furthermore, ensuring compatibility and reliability across diverse EV components remains a technical challenge, requiring continuous research and development efforts to optimize silicone formulations for specific applications within electric vehicles. Addressing these challenges will be crucial in harnessing the full potential of silicone materials to drive the next phase of innovation and growth in the electric vehicle market.

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Silicone in Electric Vehicles Market Companies

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

Recent Developments

  • In June 2024, Silicon Mobility launched the OLEA U310 Field Programmable Control Unit (FPCU). The FPCU is manufactured to process critical information with 100% accuracy for use in EVs and HEVs.
  • In March 2024, JR Energy Solution announced the inauguration of a new silicon battery manufacturing facility in South Korea for use in electric vehicles (EVs).
  • In August 2023, McLaren Applied launched the IPG5-x. IPG5-x is a superior quality 800V silicon carbide (SiC) inverter that can be integrated into electric drive units (EDUs) to increase the performance of EVs.
  • In April 2023, StoreDot announced the launch of silicon batteries for electric vehicles (EVs). This battery is manufactured using the latest technology that enables automotive manufacturers to design and manufacture lighter, cheaper, and more sustainable EVs across the globe.
  • In January 2023, Wolfspeed, Inc. announced that it will provide silicon carbide devices to power the future Mercedes-Benz Electric Vehicle (EV) platforms, enabling higher powertrain efficiency.
  • In January 2022, The CHT Group SilSo Lite 21025. SilSo Lite 21025 is a silicone foam that provides protection against thermal runaway and delivers protection against debris, moisture, vibration, and shock for EV battery packs and electronic components.

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