When battery packs start pushing higher voltages, the thermal pad has to do more than cool. SF600 brings strong electrical insulation (>8 kV/mm), soft cushioning, and reliable thermal contact in one self-adhesive, reusable material. (read more)

An air-conditioning OEM needed a thin insulating film that could reliably withstand 9 kV while still conducting heat away from hot spots and surviving mechanical assembly. SC900FG met and validated the dielectric requirement and delivered the thermal and cut-resistance performance required for high-volume production. (read more)

Our innovative 2-in-1 conductive thermal pad combines EMI shielding and thermal management in a single solution for BMS. It eliminates separate materials, simplifies assembly, reduces BOM complexity, and enhances reliability in EVs. This space-saving technology ensures optimal thermal performance and electromagnetic protection. (read more)

In the world of modern digital music, Bluetooth speakers are no longer just tools for playing music; they have become symbols of modern lifestyle. However, as features and sound quality improve, the heat generated during the operation of Bluetooth speakers has been steadily increasing, which directly impacts the performance and lifespan of the devices. (read more)

AF800 is a silicone-free thermal pad engineered to protect high-resolution highway displays and optical sensors from siloxane outgassing and oil precipitation. With a resin-based matrix that eliminates low-molecular-weight siloxane volatilization, AF800 delivers clean, reliable heat transfer while preserving image clarity and equipment uptime. (read more)

SF500 is a silicone thermal pad engineered for automotive projects with strict cleanliness demands — delivering reliable heat transfer with low volatility, minimal residue, and assembly-friendly handling. (read more)

Silicone foam revolutionizes 5G smartphone design by simultaneously addressing thermal management and waterproofing needs. Its microporous structure delivers superior heat dissipation (up to 1.5W/m·K) while maintaining excellent compression recovery for reliable IP68 sealing. The material's unique properties enable thinner, cooler, and more durable 5G devices. (read more)

With the rapid development of wireless communication technology, high-power RF (Radio Frequency) modules are increasingly used in communication devices. These modules inevitably generate significant amounts of heat when processing high-frequency signals. If not properly managed, overheating can severely affect the module's performance or even cause device failure. (read more)

In modern laptop design, thermal silicone pads play a crucial role in optimizing the thermal management system. These materials are placed between major heat sources such as the processor (CPU) and graphics processor (GPU) and the cooling system, filling gaps to facilitate efficient heat transfer. (read more)

When addressing the heat dissipation challenges of electronic devices,many think of transferring heat from the heat source to the heat sink through external force to improve the overall temperature performance of the equipment.However,the actual cooling effect often falls short of expectations. (read more)

Routers run continuously and heat can quietly affect speed, stability, and service life. SG560-50 thermal grease fills microscopic gaps between the chip and heatsink to improve heat transfer and keep routers running reliably. (read more)

As battery packs become smaller and more powerful, heat buildup and electrical safety become critical concerns. Silicone thermal pads help fill interface gaps, reduce thermal resistance, and support stable operation in battery applications. (read more)

As electric vehicles become more prevalent, wireless charging technology has garnered widespread attention. However, the persistent issue of heat generation during wireless charging has long troubled the industry. (read more)

In modern laptop design, thermal silicone pads play a critical role, primarily in optimizing the thermal management system. These materials are placed between major heat sources such as the processor (CPU) and graphics processor (GPU) and the cooling components, filling the gap between them to facilitate the effective transfer of heat. (read more)

In the pursuit of efficient, safe, and long-lasting energy storage technologies, thermal management has become a critical factor in improving the lifespan and performance of battery packs. The heat generated during the energy conversion and accumulation processes inside the battery directly affects its stability and overall system performance. (read more)

A food-utensil manufacturer required a non-toxic, flame-retardant thermal interface material that could survive continuous operation at 260 °C without hardening or powdering. SG560 thermal paste delivered stable heat transfer and long-term reliability well beyond the project’s thermal limits. (read more)

TIV series is a silicone-resin thermal adhesive engineered for battery pack environments that demand strong electrical insulation, durable bonding, and resistance to acids, alkalis, solvents, and oxidants—protecting both thermal performance and pack reliability in aggressive chemical conditions. (read more)

A 200 × 300 mm CSF carbon-fiber thermal pad with double-sided adhesive and thermal conductivity up to 45 W/m·K, designed for fast assembly and reliable heat transfer in high-power systems. (read more)

When a design needs heat transfer and mechanical bonding in one step, TIV800 makes the job easier. It helps secure heat sinks, insulate sensitive parts, and keep thermal performance stable in real production environments. (read more)

Medical devices such as surgical robots and 5G-connected equipment generate heat during long hours of precision operation. Thermal materials help fill interface gaps, reduce thermal resistance, and keep critical systems stable, safe, and accurate. (read more)

Selecting the correct thermal pad for a GPU is critical for stable performance and effective heat dissipation. This guide explains how engineers and system builders can choose the right pad based on thickness, thermal conductivity, and compressibility. (read more)

Modern electronics are shrinking, making traditional screws and clips a bottleneck in both design and assembly. Sheen Technology’s thermally conductive double-sided tape solves this by combining high-strength structural adhesion with efficient heat transfer. (read more)

In computers, game consoles, and smartphones, thermal management can make or break device performance. Choosing the right thermal interface material depends on gap size, thermal load, insulation needs, and maintenance requirements. (read more)

Thermal double-sided adhesive helps LED strips, panel lights, and small lamps transfer heat more efficiently while simplifying assembly. It combines thermal conductivity, insulation, and strong bonding in one easy-to-use material. (read more)

In compact power electronics, thermal conductive insulating film must do more than insulate. Base material, filler design, thickness, and assembly pressure all affect real heat dissipation performance. (read more)

As intelligent manufacturing continues to advance, robotic systems are increasingly applied in industries such as manufacturing, healthcare, and service sectors. With the trend toward high precision and high integration, the internal electronic components of robots demand enhanced heat dissipation, protection, and operational stability. (read more)

In heat-pipe test benches where silicone pads stuck to tubing and halted continuous testing, our CSF20 20W high-rebound carbon fiber thermal pad enabled reliable reuse (10–20×), restored continuous testing, and cut overall testing costs. (read more)

As compact electronics pack in more power, thermal silicone pads help move heat away from key components in wireless chargers, AI smart speakers, and projectors—improving thermal stability, reliability, and long-term performance. (read more)

AI servers run hot, and the thermal interface has to keep up. These thermal pads deliver stable heat transfer, consistent thickness control, and automation-ready integration for high-density server assemblies. (read more)

When graphite-silicone composites improved thermal conductivity but started cracking and delaminating, CSF carbon fiber thermal pads solved the problem with stronger structure, stable thermal performance, and true reusability. (read more)

CPU and heatsink surfaces are never perfectly flat, and tiny air gaps can hold heat back. SG560-50 thermal grease fills those gaps, lowers thermal resistance, and helps electronic devices stay cooler and more stable. (read more)

As the heart of energy storage systems, battery packs play a vital role in determining overall system efficiency and stability. With rapid advancements in battery technology—particularly lithium batteries—the significant increase in power density has brought new thermal management challenges. (read more)

This curable phase-change thermal adhesive flows like a phase-change TIM to remove air gaps under large heatsinks, then cures into a durable solid to prevent pump-out and mechanically secure high-power server processors. (read more)

When throughput mattered most, engineers taught robots a new task: apply thermal gel precisely. The result was less waste and steadier temperatures. (read more)

Ensure long-term reliability of LiDAR sensors with our thermally conductive, silicone-free pads. They prevent silicone vapor contamination that can distort optical lenses and signals, guaranteeing accurate perception and safer autonomous navigation in all conditions. (read more)

Graphite sheets deliver strong in-plane thermal conductivity, low weight, and thin profile for devices that need efficient heat spreading without adding bulk. They are well suited for smartphones, laptops, servers, and other compact electronics. (read more)

SC Series thermal insulating film combines electrical insulation, thermal conductivity, and cut resistance for UPS, switching power supplies, and power amplifiers that need stable performance in compact designs. (read more)

The rapid development of technology has led to the emergence of various high-tech products. Smartphones have evolved from simple communication tools into multifunctional devices comparable to computers. This increased functionality and performance require corresponding hardware advancements, including thermal management materials. (read more)

In modern automotive design, lighting systems are not only crucial for safety but also serve as a key aesthetic element. With the widespread adoption of LED technology in vehicle lighting, thermal management has become a critical challenge. This is where thermal conductive silicone gel plays a vital role in ensuring the performance and longevity of automotive lighting modules. (read more)

For internal coffee-machine heaters that demand controlled shrinkage, reliable heat transfer, and strong electrical insulation, Sheen’s SF (silicone), AF (silicone-free), and CSF (carbon-fiber) thermal pads offer ready, production-friendly options that meet those exact needs. (read more)

AF600 is a silicone-free, high-conductivity thermal pad engineered for cloud servers and AI data centers. With thermal conductivity up to 8.0 W/m·K and a special resin base that prevents low-molecular-weight siloxane volatilization and silicone oil precipitation, AF600 eliminates mirror fogging and contamination risks while offering excellent tensile strength and wear resis... (read more)

PTC (Positive Temperature Coefficient) heating elements, as advanced self-regulating heating components, are widely used across household appliances, medical equipment, automotive electronics, and industrial heating systems. In this efficient and intelligent heating technology, thermal silicone pads play a vital role in ensuring high performance and safety of the heating system. (read more)

Non-silicone thermal pads prevent contamination, ensure stable heat management, and protect optical precision in lasers, spectrometers, and high-performance imaging systems. (read more)

CSF45 is a high-conductivity carbon fiber thermal pad engineered for gap filling in high-power electronic assemblies. With thermal conductivity up to 45.0 W/m·K, low thermal impedance, and high compressibility, it supports efficient heat transfer in compact, low-pressure interfaces. (read more)

For CPUs and GPUs running under continuous load, this thermal paste helps fill microscopic gaps, reduce thermal resistance, and keep heat transfer stable over time. (read more)

In the digital age, tablets have become indispensable tools in both daily life and professional work. As these devices grow more powerful, user expectations for performance and experience continue to rise. (read more)

AE Series silicone-free thermal gel is built for sensitive electronics that cannot tolerate silicone oil bleed or siloxane volatility. With thermal conductivity from 1.0 to 3.0 W/m·K, strong wet-out, and easy compressibility, it helps keep CPUs, GPUs, servers, and power electronics cool and clean. (read more)

SC900FG is a 0.2 mm insulating film designed for compact power assemblies that need low thermal resistance, strong electrical insulation, and reliable pressure resistance in one material. (read more)

When a phase-change material is hard to peel, hard to handle, and hard to mass-produce, SP205A changes the story. It delivers the thermal performance the customer needed with much easier processing and lower production cost. (read more)

Direct-to-chip liquid cooling is unforgiving, and even small pump-out or leakage can hurt performance. This thermal gel stays in place at the GPU-to-cold plate interface, helping maintain stable thermal contact and reliable server operation. (read more)