Functionalized modification leads innovation, and hydroxyl silicone oil expands the boundaries of diverse applications

1.The added value of products made by the implementation of diversified modification technologies has increased significantly
Functionalization modification has become the core path for hydroxyl silicone oil to increase its added value. Modified products such as phenyl, vinyl, and phosphazene have been successively industrialized, with prices reaching 2.3 to 4.1 times that of general-purpose products. Through functional group composite design, modified hydroxyl silicone oil has achieved breakthroughs in water solubility improvement, reactivity enhancement, and multi-functional integration, providing the possibility for customized demands in different scenarios and promoting its upgrade from a functional intermediate to a strategic platform material.

2. Breakthroughs in segmented scenarios empower the upgrading of high-end manufacturing
Modified hydroxyl silicone oil has demonstrated irreplaceable application value in multiple high-end manufacturing fields. Hydroxypropyl epoxy co-modified silicone oil, with its excellent crosslinking performance, provides support for the lightweighting of aerospace composite materials. Double-ended phenolic hydroxyphenyl silicone oil can significantly enhance the high-temperature resistance and mechanical strength of resins, and is widely used in the field of electronic information. Low-hydroxyl hydroxyl hydrogen-containing silicone oil enables precise control of the reaction process in the vulcanization of silicone rubber, ensuring the stability of product processing.

3. The integration of green processes practices the concept of low-carbon development
The industry is accelerating the green transformation of production processes. Continuous microreactor processes are gradually replacing traditional batch reactor production, with energy consumption reduced by more than 30% and by-products cut by 40%. Meanwhile, AI-driven molecular simulation and process optimization systems have been widely applied, reducing the product development cycle by 50%. The integrated application of technologies such as green electricity utilization, waste heat recovery, and immobilized catalysts has driven the hydroxyl silicone oil industry towards a low-carbon and intelligent direction.


4. The layout of cutting-edge directions will witness a technological explosion in the next five years
The industry's technological evolution roadmap has been clearly defined. From 2025 to 2030, it will enter a dual-wheel drive stage of "application scenario traction + underlying innovation". The cutting-edge directions such as biodegradable siloxanes, intelligent responsive silicone oil, and two-dimensional material composite systems are gradually entering the industrial layout and are expected to be put into mass production after 2028. As the proportion of high-end products continues to rise, hydroxyl silicone oil will provide key support for the global value chain leap of the silicone industry.