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Sichuan Aishipaier New Material Technology Co., Ltd.
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High Energy Storage Density Performance - Precise Temperature Control And Energy Saving To Protect Aviation Equipment Stable Thermal Control Core Material: 55℃ Military Aviation Phase Change Material

Product Details

Place of Origin: Sichuan, China

Brand Name: A.S.P

Certification: SGS;MSDS

Model Number: ASP-55

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
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Product Name:
55℃ Military Aviation PCM
Phase Transition Temperature:
55℃(can Be Customized)
Material:
Safe, Environmentally Friendly And Non-toxic
Appearance:
Mostly White
Density:
Around 0.85
Characteristic:
High Efficiency Temperature Control, Energy Saving, High Energy Storage Density, Strong Stability
Product Name:
55℃ Military Aviation PCM
Phase Transition Temperature:
55℃(can Be Customized)
Material:
Safe, Environmentally Friendly And Non-toxic
Appearance:
Mostly White
Density:
Around 0.85
Characteristic:
High Efficiency Temperature Control, Energy Saving, High Energy Storage Density, Strong Stability
Description
High Energy Storage Density Performance - Precise Temperature Control And Energy Saving To Protect Aviation Equipment Stable Thermal Control Core Material: 55℃ Military Aviation Phase Change Material

High Energy Storage Density Performance - Precise Temperature Control And Energy Saving To Protect Aviation Equipment Stable Thermal Control Core Material: 55℃ Military Aviation Phase Change Material

 

 

Product Introduction:

  1. During the phase change process, the material will absorb a lot of heat and store it in the form of latent heat, which effectively slows down the rise of the ambient temperature and achieves the purpose of cooling aviation equipment.
  2. For example, in the vicinity of certain high-temperature components of an aeroengine, it is possible to prevent parts from being damaged or performance reduced by overheating.
  3. Conversely, when the ambient temperature is above 55°C and begins to drop, the material changes from a liquid to a solid state.
  4. In this process, the previously stored latent heat is released, and the released heat is added to the surrounding environment, so that the decline rate of the ambient temperature can be delayed, and a relatively stable temperature environment is maintained.
  5. For example, in the avionics bay, damage to sensitive electronic components caused by a sudden drop in temperature can be avoided.
  6. Through this precise phase change mechanism at 55°C, the material can dynamically respond to different temperature changes in the military aviation system, providing a solid guarantee for the stable operation and performance optimization of aviation equipment.

 

 

Advantages of the product:
1. Efficient temperature control

  • When the temperature reaches about 55°C, the phase change material can undergo a phase change, from solid to liquid or from liquid to solid, absorbing or releasing a large amount of heat in the process.
  • This allows it to effectively control the temperature of the surrounding environment and maintain the stability of the temperature.
  • For example, in military aviation equipment, certain key components can be prevented from failing due to too high or too low temperature to ensure the normal operation of the equipment.

2. High energy storage density

  • Phase change materials can store a lot of energy in the process of phase change, and its energy storage density is much higher than that of traditional sensible heat storage materials, such as metal and water.
  • This means that at the same volume or weight, phase change materials can store more energy, which has important applications in the field of military aviation where space is limited.
  • For example, in the electronics bay of an aircraft, the use of phase change materials can effectively store and release heat without adding too much weight and volume, maintaining the normal operating temperature of the electronics.

3. Good reliability and stability

  • After special treatment and formulation design, 55℃ military aviation phase change material has good chemical stability and thermal stability, and can maintain the stability of its performance during long-term use.
  • Even under harsh environmental conditions, such as high temperature, low temperature, high humidity, etc., phase change materials can work normally and are not easy to decompose and deteriorate.

4. No moving parts and energy saving

  • The temperature control process of phase change materials is based on the transformation of physical states, does not require additional power drive, and has no moving parts, so it has high reliability and energy saving.
  • In the field of military aviation, this can not only reduce energy consumption, but also reduce equipment maintenance costs and failure rates.

 

 

Common application cases of the product:
-- Thermal management of avionics
1. High-power electronic equipment

  • In the electronics bay of an aircraft, high-power electronics such as radar transmitters and electronic countermeasures devices generate a lot of heat when they work.
  • The phase change material is made into a heat sink or packaged in the shell of these devices, when the temperature around the device reaches 55°C, the material undergoes a phase change to absorb heat, effectively reducing the working temperature of the device, preventing the performance of electronic components caused by overheating, failure or even damage, and improving the reliability and service life of the device.

2. Data storage and processing unit

  • For data storage devices (such as solid state drives) and processing units (such as flight control computers) in avionics systems, excessive temperatures can affect the speed of reading and writing data and the accuracy of calculations.
  • The 55℃ military aviation phase change material can be used in the heat dissipation channel or heat dissipation base of these devices to absorb heat when the temperature rises, maintain the operating temperature of the equipment in the appropriate range, and ensure the safety of the data and the stability of the flight control system.

 

-- Missile launch system (military aviation category)
1. Temperature control of the launch pad

  • In the missile launching system, the launcher will withstand the high temperature heat radiation of the engine tail flame during the missile launching process, and the guidance system is also extremely sensitive to temperature. 55℃ military aviation phase change materials can be used for thermal insulation protection of launchers and heat dissipation devices of guidance systems.

2. Guidance system temperature control

  • When the temperature is close to 55°C, the material absorbs heat to ensure that the structural strength of the launcher is not affected by high temperature, while ensuring that the electronic components of the guidance system work normally, improving the accuracy and reliability of the missile launch.

 

 

High Energy Storage Density Performance - Precise Temperature Control And Energy Saving To Protect Aviation Equipment Stable Thermal Control Core Material: 55℃ Military Aviation Phase Change Material 0

 

High Energy Storage Density Performance - Precise Temperature Control And Energy Saving To Protect Aviation Equipment Stable Thermal Control Core Material: 55℃ Military Aviation Phase Change Material 1

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