ZIITEK Electronics and AI Smart Glasses: Harnessing the Power of Materials to Create a New Experience for Wearable Devices

When AI smart glasses become "efficiency tools" in fields such as healthcare, industry, and education, their "lightness, high reliability, and durability" become the core standards for user experience - and this is all made possible by the technical support of key materials. Dongguan ZIITEK is deeply empowering the hardware upgrade of AI smart glasses with its two core products, TIF750M thermal conductive silicone sheet and TIR340 thermal conductive graphite sheet, making "tech wearables" more luxurious and reliable.

Chip "Bodyguard Suit": TIF750M thermal conductive silicone sheet, safeguarding the core computing power from overheating

The core component of AI smart glasses - the chip - is a highly integrated and power-consuming component. Its stable operation is highly dependent on effective heat dissipation and insulation protection. The ZIITEK TIF750M thermal conductive silicone sheet is precisely a "micro protective solution" tailored for the chip: It is based on a high thermal conductivity and insulation material, which can quickly disperse the heat generated by the chip during operation, preventing the AI algorithm and AR display from becoming sluggish due to high temperatures; it can also achieve strict insulation in a very small space, adapting to the "lightweight and compact" structural design of smart glasses, allowing the core computing power to continue to output stably.

Product Characteristics of TIF Thermal Conductive Silicone pad:

Thermal Conductivity: 1.25 - 25.0 W/mK,
Available in multiple thickness options: 0.25 - 12.0 mm,
Flame Resistance: UL94-V0,
Hardness: 5 - 85 Shore OO,
Self-adhesive without the need for additional adhesives,
Low volatility, low dielectric,
High compressibility, soft, suitable for low-stress application environments.

Eyeglass temple PD plate "Invisible Frame": TIR340 thermal conductive graphite sheet, achieving a balance between lightness, thinness and durability

The temple of the AI smart glasses serves as both the "hardware carrier" to accommodate components such as batteries and microphones, and the "key to the wearing experience" - it must be both lightweight and fit snugly to the face, while also being durable enough to withstand long-term bending. The ZIITEK TIR340 heat-conducting graphite sheet solves this problem with its ultra-thin and flexible characteristics: a thickness of 0.1mm keeps the temple lightweight and ensures no pressure on the face; it also has excellent bending resistance and mechanical strength, so it is unlikely to deform or break during daily wear and compression; and its ultra-thin thickness does not increase the weight of the temple, which, combined with the lightweight design, enables the AI smart glasses to provide a comfortable experience of "no pressure during long-term wearing". Whether it is for long-term immersive learning in educational scenarios or daily wear for entertainment purposes, it can balance comfort and durability.

Product Characteristics of TIR Thermal Graphite Sheets:

High thermal conductivity: 240~1700W/mK (x-y),
Excellent flexibility, easy for die-cutting processing, installation and use,
Compliant with EU ROHS, meeting requirements for halogen-free and other harmful substance content,
High molding temperature, stable and reliable performance, no aging problem,
Soft and flexible, lightweight and thin, high EMI shielding efficiency,
Can be back-glued and can be laminated.

From components to scenarios: ZIITEK materials, supporting the diverse applications of AI glasses

Today, AI smart glasses have been widely adopted in various fields such as healthcare, industry, and education: in minimally invasive surgeries, they need to transmit real-time images stably; during industrial inspections, they must adapt to the vibrations and temperature variations in complex environments; in educational classrooms, they must ensure the comfort and smoothness of long-term wear. The ZIITEK TIF750M thermal conductive silicone sheet and TIR340 thermal conductive graphite sheet provide dual guarantees from "core component protection" to "wear experience optimization" - the former enables chips to operate stably under high-load conditions, while the latter ensures the durability and comfort of devices during frequent use, helping AI smart glasses achieve the "reliable and easy-to-use" practical value in various industry scenarios.