In the vast realm of materials science, Hydrogen - Terminated Phenyl Polysiloxane IOTA - 233 shines like a bright star, gradually revealing its unique charm and value. It has a specific CAS number of 68952 - 30 - 7. As a hydrogen - terminated T - type phenyl polysiloxane, its molecular weight ranges from 550 to 3000, laying the foundation for its diverse properties.

Excellent Compatibility, Expanding Application Boundaries

One of the highlights of IOTA - 233 is its good compatibility with a variety of materials. Whether it is methyl silicone oil, liquid silicone rubber, phenyl silicone rubber, or phenyl silicone resin, it can coexist harmoniously with them. This characteristic enables it to play a significant role in numerous fields. In the production of addition - type silicone rubber, it can serve as a cross - linking agent, helping to form a more stable and high - performance silicone rubber structure. During the manufacturing process of phenyl silicone rubber and phenyl silicone resin, it also plays a crucial role, enhancing the overall performance of the products and making these materials perform better in their respective application scenarios.

Precise Technical Indicators, Ensuring Quality Stability

Visually, IOTA - 233 appears as a colorless, transparent, and viscous liquid, giving a sense of purity and professionalism. Its specific gravity ranges from 1.00 to 1.01, and its refractive index at 20°C is between 1.46 and 1.52. These precise indicators reflect the stability and consistency of its internal structure. At 25°C, its viscosity ranges from 5 to 5000 mm²/s, meeting the requirements of different production processes for material fluidity. Its flash point is greater than 110°C, ensuring its safety during storage and use. The hydrogen content (H%) ranges from 0.35 to 0.75, and precise control ensures the stable performance of it as a cross - linking agent.

Broad Application Prospects, Unlimited Potential

Due to its unique properties and good compatibility, IOTA - 233 has broad application prospects in multiple industries. In the electronics and electrical field, it can be used to manufacture high - performance sealing materials and insulating materials, protecting electronic components from the influence of the external environment. In the automotive industry, it can be used to produce high - temperature - resistant and wear - resistant parts, improving the performance and reliability of vehicles. In the aerospace field, its stable performance can also meet the strict requirements for materials, providing a guarantee for the safe operation of aircraft.