Comparative Analysis between TENSAN LED Silicone and Other LED Silicones》

Bonding Performance

• TENSAN LED Silicone: It has excellent bonding strength to a variety of materials such as metals, glass, and ceramics. It can ensure a firm connection under different working conditions and is not likely to fall off during long-term use.
• Other LED Silicone: Some products may have poor bonding effects on certain special materials. Under harsh environments like high temperature, high humidity, or long-term vibration, the bonding strength may decrease, resulting in the loosening of components.

Temperature Resistance

• TENSAN LED Silicone: It has stability within a wide temperature range. The working temperature range is generally between -55°C and 180°C, enabling it to adapt to extreme temperature environments.
• Other LED Silicone: Some ordinary LED silicones may become brittle in low-temperature environments, causing cracks at the bonding sites. In high-temperature environments, they may soften and flow, affecting the performance.

Thermal Conductivity

• TENSAN LED Silicone: It has good thermal conductivity and can effectively conduct the heat generated by LED chips, improving the heat dissipation efficiency and thus prolonging the service life of LED lamps.
• Other LED Silicone: The thermal conductivity coefficients of some products are relatively low, resulting in poor heat dissipation effects. As a result, the working temperature of LED chips may be too high, which affects their luminous efficiency and lifespan.

Insulation Performance

• TENSAN LED Silicone: It has outstanding electrical insulation performance. Indicators such as dielectric constant and volume resistivity meet high standards, effectively preventing electrical short circuits and leakage.
• Other LED Silicone: A few products may have deficiencies in insulation performance. Under high-voltage or high-humidity environments, problems like a decrease in insulation resistance and electrical leakage may occur.

Weather Resistance

• TENSAN LED Silicone: When used outdoors for a long time, it has good weather resistance and is not easily affected by natural factors such as ultraviolet rays, ozone, and rainwater, without aging, cracking, or discoloring.
• Other LED Silicone: Some ordinary organic silicones may show surface pulverization, hardening, or yellowing after long-term outdoor exposure, affecting the sealing and protection effects.

Curing Characteristics

• TENSAN LED Silicone: It has a fast curing speed and can cure rapidly under normal temperature or certain heating conditions. Moreover, the shrinkage rate during the curing process is small and will not exert excessive stress on the bonded components.
• Other LED Silicone: Some products have a slow curing speed and need a longer time to reach the optimal performance. Besides, the curing shrinkage rate is relatively large, which may lead to component deformation or damage.

Environmental Performance

• TENSAN LED Silicone: It usually adopts an environmentally friendly formula and complies with international environmental protection standards such as REACH and RoHS. It does not contain harmful substances such as heavy metals and halogens.
• Other LED Silicone: Some traditional LED silicones may contain more organic solvents or harmful substances, which will have a certain impact on the environment and human health during production and use.

Price and Cost-effectiveness

• TENSAN LED Silicone: Its price is at the mid-to-high level. However, with its excellent comprehensive performance, it can bring users long-term stable use and reliable protection effects. In the long run, it has a relatively high cost-effectiveness.
• Other LED Silicone: Low-end products are cheap, but their quality and performance are difficult to guarantee, and problems may occur frequently. High-end imported brands have better performance but are expensive, with relatively low cost-effectiveness.