In the organic silicone new material industry, methyl low-hydrogen silicone oil is a highly versatile and adaptable basic functional raw material. With stable physical and chemical properties and flexible reaction characteristics, it is widely used in rubber and plastic, ceramics, daily chemical, fine chemical and other fields, serving as the core substrate for the production of various additives and high-end products.



This product features pure odorless quality and uniform stable texture, with no deterioration during storage and application, suitable for various refined production scenarios. Its molecular structure contains active groups. With the assistance of special catalysts, it can react controllably with functional groups such as double bonds and hydroxyl groups. The reaction process is mild with high conversion rate and no excess impurities, ensuring the stable quality of downstream products and making it an optimal raw material for organic silicone modification and cross-linking synthesis.

It has diverse application values relying on unique reaction properties. In the rubber and plastic industry, it acts as a special cross-linking agent for addition-cured silicone rubber, optimizing the cross-linking density, curing effect, flexibility and weather resistance of silicone rubber products. In foam material production, it is the core raw material of foam stabilizers, balancing foam molding tension to form uniform and dense cell structures and improve the quality and service life of foam products.

In the industrial additive field, defoamers and water-soluble silicone oil synthesized from this material have high defoaming efficiency and wide system adaptability, solving foam overflow and uneven material problems in industrial production to improve efficiency and reduce loss. It is also a key raw material for super-clean ceramic antifouling agents, forming a dense protective film on ceramic surfaces to prevent stain and water penetration and endow ceramics with long-term antifouling, easy-cleaning and wear-resistant properties.

Compared with similar raw materials, it has stronger compatibility with most organic and inorganic materials, low formula debugging difficulty, and adapts to large-scale mass production and customized R&D. With stable performance, high cost performance, environmental friendliness and practicality, it meets the high-quality and high-efficiency development needs of the new material industry, and has become an indispensable basic functional raw material to empower product upgrading in various fields.