Stable Phase Change And Accurate Temperature Control Aviation Temperature Control Trump - Help Flight Mission Successfully Achieved: 20℃ Military Aviation Phase Change Materials

Product Introduction:

• 20℃ phase change material for military aviation is a functional material specially developed to meet the special needs of the military aviation field.
• It has the ability to undergo phase transitions at specific temperatures (20 ° C) and has a range of characteristics adapted to the aviation environment.
• Such materials usually have a high latent heat of phase transition, and can absorb or release a large amount of heat during the phase transition process, thereby effectively regulating the temperature of the surrounding environment.

The quality of the product:
1. Suitable phase change temperature

• The phase transition temperature of 20℃ is very suitable for the field of military aviation.
• This temperature range can meet the operating temperature requirements of most military aviation equipment, and can keep the temperature of the equipment stable under normal temperature environment.
• At the same time, it can provide certain insulation function for the equipment in some special circumstances (such as when the aircraft is flying at high altitudes, the outside temperature is low).

2. Good thermal conductivity

• Thermal conductivity is one of the important properties of phase change materials, which determines the speed of heat transfer in the material.
• 20℃ military aviation phase change material has good thermal conductivity, can quickly transfer heat to the material for storage or release, improve temperature control efficiency.
• At the same time, good thermal conductivity also helps the material to maintain temperature uniformity during the phase transition process, avoiding local overheating or overheating.

Common application scenarios:
1. Helicopter blade anti-icing and de-icing

• Helicopter blades tend to freeze when flying in cold weather or at high altitudes.
• Icing of the blade will increase the weight of the blade and change the aerodynamic shape of the blade, which will affect the flight performance and safety of the helicopter.

2. Aviation cabin environment

• In order to provide a comfortable working environment for the pilot, it is necessary to effectively control the temperature in the cockpit.
• The cabin temperature is affected by a variety of factors, including ambient temperature, solar radiation and heat dissipation from the aircraft's internal equipment.

3. Temperature regulation of aircraft fuel system

• The temperature of aircraft fuel has an important effect on the fluidity and combustion performance of the fuel.
• In different flight environments and flight stages, the fuel temperature may change greatly.

4. Temperature control of avionics

• The electronics bay of modern military aircraft contains a large number of sophisticated electronic equipment, such as radar systems, communications equipment and flight control systems.
• These devices generate heat during the working process and have strict requirements for the working temperature.