Superior Heat Transfer with 3M Thermal Pad 5590H (1mm Thickness)

Product Description

3M™ Thermally Conductive Acrylic Interface Pad 5590H is designed to provide a preferential heat transfer path between heat generating components, such as IC Chip or Electric Vehicle (EV) battery, and heat sink or spreader. It consists of highly conformable, slightly tacky acrylic elastomer sheets filled with thermally conductive ceramic particles. These highperforming thermal pads have the following features:

Key Features

Easy handling and soft pad

High conformability even for non-flat IC surfaces and automotive EV batteries

Incorporates a thin, firm acrylic layer for good handling

Highly thermally conductive while electrically insulating

Slight tack allows pre-assembly

Good wettability for better thermal conductivity

Non-silicone acrylic elastomer

Excellent durability

UL94 V-0 listed (File No. E176845)

3M™ Thermally Conductive Acrylic Interface Pad 5590H Applications

Heat transfer in consumer electronics and automotive electronic products

Decrease of compression stress to electronic parts by thermal pad conformability Examples: o Heat transfer between PCB and heat sink o Thermal management in automotive EV batteries o Power electronics component thermal management o Chip on film (COF) heat conduction o Automotive electronics o LED thermal management o General gap filling in electronic devices

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Role of Adhesives in EV Battery Thermal Management

As the electric vehicle (EV) industry continues to grow, one critical aspect gaining increasing attention is battery thermal management. The performance, efficiency, and safety of EV batteries depend on effective thermal control systems. In this context, adhesives play a crucial role, serving as vital components in ensuring optimal battery performance while enhancing thermal efficiency. Here’s an overview of how adhesives contribute to EV battery thermal management:

Thermal Interface Materials (TIMs) for Heat Transfer Adhesives designed for EV thermal management are often used as thermal interface materials (TIMs). These high-performance adhesives facilitate the efficient transfer of heat from the battery to the cooling system, helping maintain a consistent and safe operating temperature. Thermally conductive epoxy adhesives are a prime example of these specialized adhesives, engineered to optimize heat dissipation in EV batteries.

EV Battery Thermal Insulation Effective thermal insulation is essential for protecting battery cells from overheating, which could lead to degradation or failure. Adhesives for EV battery thermal insulation provide the necessary sealing and bonding to secure thermal protection materials around battery packs. These adhesives ensure that the insulation is durable and resistant to high temperatures, preventing any potential heat damage to the cells.

High-Temperature Adhesives for Battery Pack Assembly As EV batteries operate in high-temperature environments, it’s essential to use adhesives that can withstand extreme heat without compromising their performance. High-temperature adhesive solutions ensure that components such as battery cells and modules remain securely attached, even under heat stress. High-temperature adhesive India manufacturers focus on developing adhesives that endure high-temperature variations, making them suitable for demanding automotive applications.

Improved EV Battery Cooling Solutions Cooling systems are indispensable for EV battery thermal management. Adhesives for EV battery cooling solutions help attach cooling plates, heat sinks, and other components that assist in heat dispersion. The use of advanced adhesives for electric vehicle thermal solutions enables better heat transfer between the battery cells and the cooling systems, ensuring the cells remain within safe operating temperatures.

Battery Management System Adhesives Battery management systems (BMS) play a pivotal role in regulating battery temperature, state of charge, and health. Adhesive solutions for battery management system adhesives are engineered to bond delicate components within the BMS while allowing them to function effectively under thermal stress. By using these adhesives, manufacturers ensure the long-term stability of the system without affecting the overall performance of the battery.

Adhesives for Battery Cell Bonding and Cooling In the assembly of EV batteries, adhesive solutions are used to bond the battery cells securely while maintaining thermal conductivity. Thermal adhesives for battery pack assembly offer a dual function, providing both strong bonding and efficient heat dissipation. This ensures that the battery pack remains stable and cool during operation, enhancing overall EV efficiency.

Thermal Conductivity Enhancement in EV Batteries One of the key factors in effective EV thermal management is the enhancement of thermal conductivity. Thermal conductivity adhesives for EV batteries are designed to bridge gaps in thermal systems, providing improved heat flow from the battery cells to the cooling systems. By enhancing the battery's heat dispersion capabilities, these adhesives contribute to a safer and more efficient driving experience.

Ensuring Battery Efficiency and Safety The right adhesive solution helps protect against heat-related issues that could jeopardize battery performance or cause accidents. By ensuring that the various components within the battery remain securely bonded while efficiently transferring or insulating heat, adhesives for EV battery systems play a vital role in the efficiency, safety, and longevity of electric vehicles.

In conclusion, adhesives for EV battery thermal management are indispensable in ensuring that EV batteries operate at their highest potential. By facilitating better thermal regulation and offering high-performance solutions for heat dissipation, bonding, and insulation, these adhesives contribute to the durability, safety, and efficiency of electric vehicles. For top-tier thermal adhesive solutions, Kohesi Bond, an adhesive manufacturer in India, offers an extensive range of industrial epoxy adhesive products, including thermally conductive epoxy adhesives tailored to meet the unique needs of the automotive industry.

For more information, visit Kohesi Bond’s

Thermal Interface Materials Market| Global Growth Landscape

As per Triton Market Research, the Global Thermal Interface Materials Market report is segmented by Product Type (Thermal Pads, Greases & Adhesives, Tapes & Films, Phase Change Materials, Metal-Based Materials, Other Product Types), Application (Automotive Electronics, Computers, Consumer Durables, Industrial Machinery, Medical Devices, Telecom, Other Applications), and Regional Outlook (Middle East, North America, , Latin America, Africa, Asia-Pacific, and Europe).

The report highlights the Market Summary, Industry Outlook, Impact Analysis, Porter’s Five Forces Analysis, Market Maturity Analysis, Industry Components, Key Buying Impact Analysis, Key Market Strategies, Market Drivers, Challenges, Opportunities, Analyst Perspective, Competitive Landscape, Research Methodology & Scope, Global Market Size, Forecasts & Analysis (2023-2030).

As per the Triton’s research report, the global thermal interface materials market is anticipated to progress with a CAGR of 10.17% over the forecasting years 2023-2030.  

Thermal interface materials are substances that enable effective heat transfer between any two surfaces. The heat transfer is managed by filling the air gap that occurs between the interfaces between components. The application of thermal interface materials in electronic devices prevents overheating and increases the durability of the device.

There is an increasing need for advanced electronics, telecom devices, and digital gadgets with fast processing and multiple functions. In order to have optimal performance and reliability from these products, temperature regulation and effective heat transfer management is crucial. Thus, thermal interface materials (TIM) will witness a demand rise in order to maintain these electronic systems within specified temperature limits. Additionally, increasing urbanization leads to an increase in the consumption of electronic devices that are heat efficient and last longer. Thus, there is tremendous scope for thermal interface materials in diverse applications in diverse industries like automotive parts, household electronics, GPUs, etc.

Additionally, the key players in the market tend to invest in research for innovating TIM products, which will lead to further technological advancements in the market.

Asia-Pacific is expected to witness the fastest growth in the thermal interface materials market. Developing countries in this region will undergo a rapid phase of industrial expansion by setting up advanced driver-assistance systems, data centers, and 5G technology. There is a thriving demand in the manufacturing and electronics sector, particularly in South East Asian countries. All these industries, manufacturing units, and electronic devices require TIM to have an effective thermal management solution. Thus, in order to adopt an efficient heat management system, demand for thermal interface materials is growing, thereby fueling the market’s development. 

The major competitive companies in the thermal interface materials market are Dow Chemical Company, Aavid Thermalloy LLC, 3M, Shin-Etsu Chemical Co Ltd, Momentive Performance Materials Inc, Honeywell International Inc, Laird Technologies Inc, Indium Corporation, Wakefield Thermal Inc, Parker Hannifin Corporation, Timtronics, and Henkel AG & Co KGAA. 

The supply chain of the thermal interface materials market is affected by fluctuations in raw material costs like polyethylene, aluminum hydroxide, polymerized liquids, polypropylene, and PVC. These raw materials are acquired by refining and processing oil and natural gas. Volatility in oil prices pushes up the cost of raw materials, manufacturing, and shipping. Thus, uncertain price behavior poses a challenge for the companies to determine the operational costs of thermal interface materials for end-users.

Global #ThermalInterfaceMaterials Market is estimated to grow at a CAGR of 7.4% during the forecast period 2018-2023. https://www.industryarc.com/Report/16293/thermal-inte.. Keyplayers: #Honeywell #Henkel #Dow #3M #ParkerHannifin #Laird #Momentive #marketresearch #marketforecast #marketanalysis #marketintelligence #IndustryARC

The Global Thermal Interface Materials Market is gaining privileges from the participation of several associated companies. These companies are Bergquist Company (U.S.), 3M Company (U.S.), Henkel Corporation (U.S.), Parker Chomerics (U.S.), Momentive Performance Materials Inc. (U.S.), Indium Corporation (U.S.)