With the rapid increase in AI computing power, how can thermal graphite sheets break the "high-temperature shackles" of tablet computers?

Against the backdrop of AI computing power surging and chip power consumption exceeding the kilowatt level, thermal conductive graphite sheets are emerging as the core solution to the heat dissipation challenges of tablet computers through material innovation and structural optimization. From the perspective of material properties, the various thermal conductivity characteristics of thermal conductive graphite sheets are well-suited to the heat dissipation requirements of AI chips. They can quickly and horizontally spread the heat generated by heat sources such as GPUs and CPUs throughout the entire heat dissipation module, preventing local overheating and the resulting frequency reduction and lag.

Thermal graphite sheets are high-performance and cost-effective thermal interface materials. They are soft, flexible, lightweight, and have excellent EMI shielding performance. Their superior thermal conductivity can effectively solve common problems of thermal interface materials and ensure that the structural integrity is not lost during application. Moreover, they have a high thermal conductivity to help release and dissipate the generated heat or heat sources such as CPUs.

Product features of thermal conductive graphite sheets:

Good thermal conductivity: 2.0W—1700W/mk
High forming temperature, stable and reliable performance, no aging problem.
Good flexibility, easy to die-cut and process, easy to install and use.
Soft and flexible, thin and light in texture, with high EMI shielding effectiveness.
Compliant with the EU RoHS Directive and meets the requirements for the absence of harmful substances such as halogens.

As AI computing power surges at a rate of tenfold each year, heat dissipation is no longer a "background supporting role", but has become a crucial battlefield that determines the success or failure of technology implementation. With its material properties, technological iterations, and market validation, thermal graphite sheets are moving from consumer electronics to data centers, shifting from passive cooling to active thermal management, and have become indispensable "temperature guardians" in the AI era.