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With the high performance, high output, and miniaturization of electrical and electronic products, the importance of technology for dissipating heat generated inside products is increasing. The heat generated internally has a significant impact on the performance, lifespan, and reliability of electronic devices. Thermally-conductive plastics efficiently dissipate the heat generated inside due to their excellent thermal conductivity properties. Compared to metals, they are easy to process, cost-effective, and offer advantages in terms of durability against corrosion and lightweight design.
Characteristics
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Thermal Conductivity
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Excellent Workability
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Lightweightness
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Cost-effectiveness
Applicable Areas
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Built-in Camera
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HUD (Head Up Display)
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Car Head Light
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Wireless Charger
Heat Transfer
Thermal Conductivity Measurement Equipment
BGFecomaterials possesses thermal conductivity measurement equipment called an LFA (Laser Flash Apparatus) and is actively measuring and analyzing the thermal conductivity of materials at various temperatures.
Heat Dissipation Mechanism
Efficient formation of the heat transfer network by compounding various forms of thermally conductive fillers (such as spherical, flake, fiber, etc.).
Enhancement of mechanical properties and increased thermal conductivity efficiency of composite resins through the addition of fillers in fiber form, such as glass fiber and carbon fiber.
