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Sichuan Aishipaier New Material Technology Co., Ltd.
Sichuan Aishipaier New Material Technology Co., Ltd.
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Built For Military Aviation And Resistant To Harsh Conditions - A Reliable Thermal Control Cornerstone For Flight Safety And Equipment Stability: 25℃ Military Aviation PCM

Product Details

Place of Origin: Sichuan,China

Brand Name: A.S.P

Certification: SGS;MSDS

Model Number: ASP-25

Payment & Shipping Terms

Minimum Order Quantity: Negotiable

Price: Negotiable

Packaging Details: Bags, boxes, or containers(can be customized)

Delivery Time: 5-8 Work Days

Payment Terms: T/T

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Specifications
Highlight:
Product Name:
25℃ Military Aviation PCM
Temperature:
25℃(can Be Customized)
Form:
Powder
Color:
Mostly White
Density:
Around 0.85
Material Property:
Safe, Environmentally Friendly And Non-toxic
Product Name:
25℃ Military Aviation PCM
Temperature:
25℃(can Be Customized)
Form:
Powder
Color:
Mostly White
Density:
Around 0.85
Material Property:
Safe, Environmentally Friendly And Non-toxic
Description
Built For Military Aviation And Resistant To Harsh Conditions - A Reliable Thermal Control Cornerstone For Flight Safety And Equipment Stability: 25℃ Military Aviation PCM

Built For Military Aviation And Resistant To Harsh Conditions - A Reliable Thermal Control Cornerstone For Flight Safety And Equipment Stability: 25℃ Military Aviation PCM

 

 

How the product works:

  1. When the ambient temperature is below 25℃, the phase change material is in a solid state.
  2. As the ambient temperature gradually rises and approaches 25 °C, the material molecules begin to absorb heat, and its internal lattice structure or intermolecular forces are gradually broken, and then the phase transition process from solid to liquid begins.
  3. In this process, a large amount of heat is absorbed by the material and stored in the form of latent heat, which effectively prevents the rapid rise of the ambient temperature and plays the role of cooling and cooling, for example, can be used to control the temperature in the avionics cabin to prevent equipment failure or performance degradation due to overheating.
  4. On the contrary, when the ambient temperature is higher than 25 °C and begins to decline, the material changes from liquid to solid, and the previously stored latent heat is released, so that the decline rate of the ambient temperature can be slowed down, and a relatively stable temperature environment can be maintained, such as in the aircraft fuel system, which can avoid problems such as poor fluidity and insufficient combustion caused by too low temperature of fuel.
  5. Through this precise phase change mechanism at 25 °C, the material can dynamically adjust the temperature and achieve reasonable storage and release of heat according to different scenarios and equipment requirements of military aviation, which plays a crucial role in the stable operation and performance optimization of military aviation systems.

 

 

The quality of the product basic nature:
1. Stable chemical properties

  • It can withstand the erosion of chemical substances such as aviation fuel, lubricating oil, hydraulic oil, and is not easy to react or decompose, ensuring the long-term stability and reliability of the material.
  • At the same time, in the long-term use process, it will not be affected by ultraviolet light, radiation and other factors and performance decline.

2. Good mechanical properties

  • With a certain strength and toughness, it can withstand mechanical stress such as vibration and impact generated by the aircraft during flight, and is not easy to damage or break.
  • This helps to ensure the integrity and effectiveness of the phase change material, ensuring that it can function properly.

3. Environmental protection

  • The material itself is environmentally friendly, non-toxic, harmless and pollution-free, and meets the requirements for environmentally friendly materials in the field of military aviation.
  • During the use of the aircraft, there will be no harm to the health of pilots and passengers, and no pollution to the environment.

 

 

Product application scenarios:
1. Avionics bay

  • In the avionics bay, various precision electronic equipment such as radar systems, communication equipment, flight control systems are highly dense.
  • These devices generate a lot of heat during operation, resulting in increased cabin temperatures. 25 °C military aviation phase change materials can be made into heat sinks or encapsulated in the shell of electronic devices.
  • When the equipment works so that the temperature in the cabin is close to 25 °C, the phase change material changes from solid to liquid, absorbs a lot of heat, and prevents the electronic equipment from failing due to overheating, such as performance degradation and component damage.

2. Aircraft fuel system

  • A stable fuel temperature is essential for the proper operation of aircraft engines.
  • In some long-distance flights or flight missions under complex meteorological conditions, the use of 25℃ military aviation phase change materials can reduce the fluctuation range of fuel temperature by about 40%-60%, effectively reducing flight safety hazards caused by fuel problems.

3. Aviation cabin environment regulation

  • Providing a comfortable cockpit environment for the pilot is essential for long-duration missions.
  • The cabin temperature is affected by a variety of factors, including ambient temperature, solar radiation and heat dissipation from the aircraft's internal equipment. Apply phase change materials to the filling of cockpit seats, the interior of the cabin wall, or the auxiliary components of the air conditioning system.
  • When the cabin temperature rises to more than 25 °C, the phase change material in the seat, the cabin wall and other parts absorbs heat, slowing down the temperature rise in the cabin and providing the pilot with a cool feeling.

4. Helicopter blade anti-icing deicing

  • This anti-icing deicing measure can significantly reduce the thickness and extent of blade icing.
  • For example, it can reduce the icing area of the blade by about 60%-80%, which greatly improves the flight safety of the helicopter in cold environments and ensures the normal flight of the helicopter in harsh weather conditions.

5. Uav thermal management

  • With limited space inside drones, heat dissipation from electronics and batteries is a key issue.
  • 25℃ military aviation phase change materials can be used for UAV fuselage structure, battery compartment and electronic equipment bay.
  • When the internal temperature of the drone rises to about 25 °C during flight, the phase change material absorbs heat, protects the electronic devices and batteries from high temperatures, and ensures the normal flight of the drone.

 

 

Built For Military Aviation And Resistant To Harsh Conditions - A Reliable Thermal Control Cornerstone For Flight Safety And Equipment Stability: 25℃ Military Aviation PCM 0

 

Built For Military Aviation And Resistant To Harsh Conditions - A Reliable Thermal Control Cornerstone For Flight Safety And Equipment Stability: 25℃ Military Aviation PCM 1

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