IOTA BJ710 phenyl silicone oil has emerged as a valuable asset in the industrial landscape, offering a combination of properties that make it suitable for a multitude of challenging applications. As a methylphenyl polysiloxane polymer with a single - phenyl component, it brings a new dimension to the world of industrial materials.

Antioxidant and Temperature - Resistant Heat Transfer Agent

IOTA BJ710 exhibits good antioxidant and temperature - resistant properties, making it an excellent heat transfer agent. In many industrial processes, efficient heat transfer is crucial for the normal operation of equipment. The thermal conductivity of this silicone oil remains relatively constant over a wide temperature range, ensuring stable and efficient heat transfer. Whether in high - or low - temperature environments, it can maintain consistent heat transfer performance, providing reliable thermal management support for industrial production.

Radiation - Resistant Pioneer for Complex Environments

In fields such as nuclear energy where radiation is present, the radiation resistance of materials is of utmost importance. IOTA BJ710 has remarkable radiation resistance, with a radiation resistance value of 1.7 x 108 rads. It can work stably in radiation - exposed environments for a long time without significant performance degradation. This characteristic makes it an ideal choice for applications in nuclear power plants and other radiation - exposed scenarios, ensuring the normal operation of equipment in these special environments.

Rich Technical Parameters to Meet Diverse Needs

From a technical perspective, IOTA BJ710 is a colorless and transparent liquid. Its specific gravity, viscosity, and other parameters are carefully formulated. The reasonable viscosity - temperature coefficient allows it to maintain relatively stable viscosity performance at different temperatures. The high flash point, fire point, and auto - ignition temperature ensure safety during use. The low pour point enables it to maintain good fluidity in low - temperature environments. The specific heat and thermal conductivity parameters make it outstanding in heat transfer, and the low volatility reduces losses during use. Additionally, its good compressibility, with different compression rates and bulk moduli under various pressures, can meet the needs of different shock absorption and damping applications. These rich technical parameters enable it to meet the diverse needs of various industrial scenarios.