Silicone 2 Part Potting Compound Epoxy High Thermal Conductivity OEM BZ-3900-G2.0
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BZ-3900-G2.0: 2.0 W/m·K High Thermal Conductivity Silicone Potting CompoundProduct DescriptionBZ-3900-G2.0 is a high-performance two-component addition-cure silicone potting compound designed for extreme heat dissipation requirements in power-dense electronic systems. With a thermal conductivity rating of ≥2.0 W/m·K, low water absorption, and UL94 V0 flame retardancy, it provides exceptional thermal management, electrical insulation, and environmental protection for components operating in harsh conditions. This compound balances flowability with high density, making it suitable for both manual and automated dispensing processes.
Key Product Features
Technical Parameters
Product Applications1.Ultra-Fast Charging Systems: Encapsulates high-power charging stations, battery management
systems (BMS), and fast-charging modules in electric vehicles. Directions for Use
Packing & Shipping & Storage
FAQ:Q1: What are Thermal Conductive Adhesive Compounds used for? A1: Thermal Conductive Adhesive Compounds are used to bond components while efficiently transferring heat away from sensitive electronic parts, ensuring optimal thermal management in devices such as LEDs, CPUs, and power modules. Q2: What materials can Thermal Conductive Adhesive Compounds bond? A2: These compounds can bond a variety of materials including metals, ceramics, plastics, and electronic components, providing strong adhesion along with excellent thermal conductivity. Q3: How do Thermal Conductive Adhesive Compounds improve device performance? A3: By facilitating efficient heat dissipation from heat-generating components, these adhesives prevent overheating, improve reliability, and extend the lifespan of electronic devices. Q4: Are Thermal Conductive Adhesive Compounds electrically conductive? A4: Most Thermal Conductive Adhesive Compounds are electrically insulating to prevent short circuits, while still offering high thermal conductivity to manage heat effectively. Q5: What is the typical curing process for Thermal Conductive Adhesive Compounds? A5: The curing process varies by product, but generally involves
room temperature curing or heat curing at elevated temperatures to
achieve optimal adhesion and thermal performance. |
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| Product Tags: Silicone potting compound epoxy High thermal conductivity potting compound OEM thermal potting compound | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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