High Temperture Corematerial-Based VIP For Wide Temperature Range (-196℃-800℃)

The interior of the metal VIP is filled with heat-resistant core materials and vacuumed, showing excellent heat insulation effect in the direction perpendicular to the metal VIP. The external cladding material is aluminum foil or stainless steel foil with high thermal conductivity, which has good heat dissipation effect in the direction parallel to the metal VIP. The heat sink with high thermal conductivity can also be connected at the edge and connected to the heat dissipation system so as to play a better heat dissipation effect. Metal VIP can be applied to new energy battery heat insulation and other special heat insulation scenarios.

State high temperatures:The thermal insulation properties of 8mm VIP and 9mm aerogel felt with the same length and width were compared at 400℃ and 600℃. Compared with aerogel felt, the back temperature of VIP metal was significantly lower and the heating rate was slower.

In the unsteady (rapid temperature rise) tests, the metal VIP insulation performance was better than the aerogel felt.

Liquefied Natural Gas (LNG) Tanks: VIPs can be used to insulate LNG storage tanks and transport vessels, maintaining the extremely low temperatures required to keep natural gas in its liquid state.

Cryogenic Freezers: Used in medical and scientific research to store biological samples, vaccines, and other temperature-sensitive materials at cryogenic temperatures.

Spacecraft Insulation: VIPs can protect spacecraft from the extreme temperatures of space, both the intense heat when exposed to the sun and the cold of the shadowed regions.

Aircraft Components: Insulating critical components that are exposed to high temperatures during flight, such as engine parts and electronic systems.

High-Temperature Furnaces and Kilns: VIPs can be used to insulate industrial furnaces and kilns, improving energy efficiency and maintaining consistent internal temperatures.

Petrochemical Industry: Insulating pipes, reactors, and storage tanks that operate at high temperatures to ensure safety and efficiency.

Thermal Energy Storage: VIPs can be used in systems designed to store thermal energy at high temperatures, such as molten salt storage in solar thermal power plants.

Nuclear Power Plants: Insulating components that operate at high temperatures to enhance safety and efficiency.

Electric Vehicle Batteries: Insulating battery packs to maintain optimal operating temperatures, enhancing performance and safety.

Exhaust Systems: Insulating exhaust systems to reduce heat loss and improve efficiency.

High-Performance Buildings: VIPs can be used in the construction of buildings that require superior insulation properties, such as passive houses or buildings in extreme climates.

Fire-Resistant Insulation: Providing insulation that can withstand high temperatures in case of fire, enhancing building safety.

Thermal Management: Insulating components in electronic devices and data centers to manage heat dissipation and maintain optimal operating temperatures.

High-Temperature Cooking Equipment: Insulating ovens, fryers, and other cooking equipment to improve energy efficiency and maintain consistent cooking temperatures.

Cold Chain Logistics: Ensuring that perishable goods are kept at the required low temperatures during transport and storage.

Laboratory Equipment: Insulating equipment used in high-temperature experiments or processes, such as reactors and high-temperature ovens.

Cryogenic Research: Insulating equipment used in cryogenic research to maintain extremely low temperatures.

Solar Panels: Insulating components of solar panels to protect them from high temperatures and improve efficiency.

Wind Turbines: Insulating components that may be exposed to extreme temperatures to ensure reliable operation.