The IOTA 68210 possesses a series of remarkable product features. Its characteristics of low viscosity and high fluidity enable the material to easily penetrate into complex structures and tiny gaps during the construction process, ensuring comprehensive and uniform coverage, which greatly improves the construction efficiency and quality. The material exhibits excellent thermal conductivity and low thermal resistance, being able to rapidly conduct heat away, effectively solving the heat dissipation problems of equipment and ensuring the stable operation of various electronic products and industrial equipment in high-temperature environments. It is worth noting that it also has the advantage of fast curing, which can complete the curing process in a relatively short time, significantly shortening the production cycle and providing strong support for enterprises to improve production efficiency.

When analyzed in-depth from the technical index level, the IOTA 68210 also performs remarkably well. Its thermal conductivity is as high as 0.7W/m.K, standing out among many similar products and demonstrating powerful heat dissipation capabilities. The viscosity is within the ideal range of 4000±500mPa·s, ensuring good fluidity while not being too thin to cause difficulties in construction. The density is 1.60±0.05g/cm³, ensuring the stability of the material in practical applications. The operation time is between 40 and 80 minutes, giving operators sufficient time for mixing and construction operations. After the material is cured, the hardness (shoreA) is 50±5, which, while ensuring a certain degree of flexibility, has sufficient strength to cope with various working conditions. Its shear strength (MPa, Al/Al) reaches 0.6, indicating reliable bonding performance in metal bonding.

In the application field, the IOTA 68210 demonstrates extensive applicability. It adopts a 1:1 mixing ratio, and this simple mixing ratio facilitates practical operation. The characteristic of medium-low hardness enables it to generate good adhesive force on most substrates at room temperature, and it has excellent high-temperature resistance and thermal stability. In the automotive electronics field, it can be widely applied to the potting and bonding of automotive electronic modules and sensor components, providing a solid guarantee for the stable operation of automotive electronic systems. In the new energy industry, the manufacturing of key components such as photovoltaic junction boxes, inverters, on-board chargers (OBC) modules for electric vehicles, and lithium battery packs cannot be separated from the assistance of the IOTA 68210. It can effectively improve the performance and reliability of these devices and extend their service life.

With the continuous growth of the demand for high-performance materials in various industries, the introduction of the IOTA 68210 addition type two-component thermal conductive adhesive material undoubtedly injects strong vitality into the market. It will play an important role in numerous fields with its own excellent performance and promote the related industries to reach a higher development level.