Product
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MetalGraphX
S23 Galaxy vs. iPhone 15 Pro
S23 Galaxy
Apple watch
Display Module Materials for Mobile, Notebook
The performance of existing products has been improved by adopting a two-layer structure that directly coats a metal layer with a material made by synthesizing graphite/graphene powder fillers and binder resins, including heat dissipation. This simplifies the process, reducing costs related to both the process and materials, while enabling a thin design with a thickness of less than 100㎛.
Modules for Large OLED TV
By synthesizing fine graphite powder for TV graphite products and dispersing it to create resin, then coating it onto a metal layer, it is possible to improve not only heat dissipation but also conductivity particles, design limitations, cost efficiency, and EMI shielding properties.
Samsung 65” TV (front view)
Samsung 65” TV (side view)
SealGraphX
A high thermal conductivity natural graphite sheet is applied without lamination, and the exposed surface is treated with resin, graphite/graphene resin, or plating. This material features high-density graphite with excellent thermal conductivity (~500 W/mK) and an ultra-thin structure of 40 microns in thickness.
Sealing with Clear Coating Resin/ Graphite or Graphene Resin for graphite side, top or bottom surface
Plating of High Thermal Conductivity Graphite Sheets: Provides EMI shielding and heat diffusion.
ElaGraphX
This flexible, high heat-dissipation film can be used in next-generation foldable/stretchable smartphones, tablets, and laptops. It is designed to withstand the stress generated during the folding and unfolding process in the hinge area of foldable mobile phones, while effectively dispersing heat from the two display modules.
Existing Structure
High Heat-Dissipation Stretchable graphite resin film for foldable film
UltraTIM
AI High Performance Semiconductor TIM* Heat Resistant Material
Electric vehicle secondary battery heat dissipation partition wall
