Long-chain alkyl silicone oil breaks through technical bottlenecks and brings about efficiency innovations in high-temperature industrial scenarios

1. Ultra-wide temperature range stability rewrites industry standards
The new long-chain alkyl silicone oil has achieved stable performance in extreme high-temperature environments of 400-500℃ through molecular structure optimization. The core technology lies in the use of C18-C24 long-chain alkyl grafted siloxane skeletons, combined with the introduction of antioxidant groups through a special synthesis process, to form a physical barrier and delay oxidative degradation. In metal die-casting scenarios, this material can form a uniform lubricating film on the mold surface. During continuous production, the mold cleaning cycle is extended by more than 30%, significantly reducing the frequency of downtime for maintenance.

2. Hydrolysis resistance unlocks all-environment applications
Its chemically inert molecular structure enables it to maintain stable performance even in strong acid and strong alkali environments. When producing rubber products in high-humidity workshops, it can prevent surface whitening and adhesion problems caused by hydrolysis. This feature makes it stand out in fields with high environmental adaptability requirements such as bathroom seals and outdoor rubber parts. Combined with a multi-substrate compatibility design, it can form a tight adhesion layer with materials such as plastic, polyurethane, and metal without affecting the original performance of the substrate.

3. A revolutionary breakthrough in direct secondary processing after demolding
Traditional mold release agents often require additional cleaning steps due to residue issues, while the new type of silicone oil leaves no residue on the surface after demolding and can directly undergo secondary processing such as silk-screen printing and electroplating. In the production of automotive interior parts, this feature reduces process turnover losses by 30%. Meanwhile, in coating applications, an addition of 0.1-0.3% can improve leveling and enhance the glossiness of the coating, contributing to the texture upgrade of high-end furniture paint.

4. Environmentally friendly production processes reduce industry costs
The newly developed thiol double bond reaction preparation technology, by replacing traditional platinum catalysts with ultraviolet photocatalysis, not only solves the problem of precious metal residues but also reduces production costs by more than 20%. This process can complete purification under vacuum drying conditions at 50℃, with significantly lower energy consumption than traditional processes. Meanwhile, the thermal stability of the product has been enhanced to 350℃, providing a greener solution for fields such as mold release agents and lubricating oils.