Shenzhen Petersburg Composite Materials Co., Ltd

This vacuum silica aerogel super-insulating composite material adopts the most cutting-edge multi-layer structure design, combining silica aerogel with extremely low thermal conductivity with vacuum insulation technology to form one of the composite systems with the strongest thermal resistance. Aerogel greatly reduces heat conduction through its nanoporous structure, and the vacuum layer further prevents heat convection and radiation heat transfer. The two work together to significantly reduce heat transfer and are an efficient solution for thermal management in harsh environments.

In terms of thermal insulation performance, this material has the lowest thermal conductivity on the market and can achieve strong thermal resistance at extremely thin thickness, which is especially suitable for use in scenarios with limited space but extremely high thermal protection requirements. Whether in high or low temperature environments, it can maintain stable thermal shielding capabilities to ensure the safe operation of equipment and components under extreme conditions.

The material has an extremely low density and a porosity of up to 90%, which significantly reduces weight while maintaining excellent thermal performance. It is particularly suitable for fields with strict requirements for lightweight, such as aerospace vehicles, drones, electric vehicles and portable devices. It can maintain the integrity of form and function even in harsh sports or dynamic environments.

After being reinforced with high-performance composite technology, the material has good mechanical strength and flexibility, and can withstand compression, vibration and repeated use without breaking or failing. At the same time, it is an inorganic material with natural flame retardant properties. It will not burn or release harmful gases under high temperature. It has excellent chemical stability and can resist moisture, ultraviolet rays and a variety of corrosive chemicals. It is suitable for long-term use in various complex environments.

This composite material is widely used in many cutting-edge fields. In the aerospace and defense industry, it can be used in the thermal control systems of satellites, aircraft, and space probes. In the consumer electronics field, it can be used for the internal heat shielding design of smartphones, tablets, laptops, and mobile power supplies. In the new energy and electric vehicle industries, it can be used as a thermal management protective layer for lithium battery packs and drive modules. It can also be used in industrial-grade applications such as vacuum insulation containers and precision temperature control equipment housings. It is a key material for future thermal protection systems.