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Sichuan Aishipaier New Material Technology Co., Ltd.
Sichuan Aishipaier New Material Technology Co., Ltd.
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90°C Thermal Management PCM Can Be Used To Control The Temperature Of Equipment Or Reaction Environments

Product Details

Place of Origin: Sichuan, China

Brand Name: A.S.P

Certification: SGS;MSDS

Model Number: ASP-90

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:
90°C Thermal Management PCM
Model:
ASP-90
Temperature:
90℃(can Be Customized)
Density:
Around 0.85
Color:
White
Material Property:
Safe, Environmentally Friendly And Non-toxic
Product Name:
90°C Thermal Management PCM
Model:
ASP-90
Temperature:
90℃(can Be Customized)
Density:
Around 0.85
Color:
White
Material Property:
Safe, Environmentally Friendly And Non-toxic
Description
90°C Thermal Management PCM Can Be Used To Control The Temperature Of Equipment Or Reaction Environments

90°C Thermal Management PCM Can Be Used To Control The Temperature Of Equipment Or Reaction Environments

 

 

Composition and structure:

  • Its composition usually includes substances that are capable of a suitable phase transition around 90°C. For example, some organic compounds with high melting points, such as some specific polyols, polyethers, etc., may also have some inorganic compounds or their compounds.
  • Structurally, it may take the form of an encapsulation, such as microencapsulation. In the microcapsule structure, the outer shell is generally made of a high-temperature resistant polymer material, which encapsulates the phase change material in the core. This not only prevents phase change substances from leaking, volatilizing or adverse reactions at high temperatures, but also facilitates their use in different application scenarios.
  • For example, in the coating of some industrial equipment, this microencapsulated 90°C thermal management PCM can be evenly dispersed.

 

 

Performance Characteristics:

1. Efficient heat storage and release performance

  • When the temperature reaches 90°C, the PCM begins to undergo a phase transition. If the temperature rises from below 90°C to 90°C, the PCM will change from one state (such as solid) to another (such as liquid), and this process will absorb a large amount of heat, thereby effectively reducing the temperature rise rate of the surrounding environment and acting as a temperature regulation. When the temperature drops, it changes back from a liquid state to a solid state, releasing stored heat that helps keep the ambient temperature relatively stable.
  • For example, in some industrial production processes, when the temperature of some parts of the equipment is close to or reaches 90°C, the 90°C thermal management PCM can absorb heat, prevent local overheating, maintain the normal operating temperature of the equipment, and ensure the stability of the production process.

2. Good stability and reusability

  • Due to its design for use in higher temperature environments, this PCM has good resistance to high temperatures. During multiple phase change cycles, it is able to maintain relatively stable performance and will not have significant performance degradation due to frequent phase transitions.
  • This means that it can be used for repeated thermal storage and release operations over a long period of time with good durability and reliability.

3. Adjustability

  • By selecting different phase change material compositions, proportions, and the preparation process of microcapsules, the phase change temperature, heat storage capacity and other properties of PCM can be adjusted to meet the specific needs of 90°C thermal management in different application scenarios.
  • For example, in different industrial thermal processes, the performance parameters of the PCM can be precisely adjusted according to the process requirements.

4. Compatibility with other materials

  • 90°C Thermal Management PCM needs to have some compatibility with other materials in a variety of application scenarios. For example, in industrial equipment, it should be able to combine well with the housing material and insulation material of the equipment, and will not cause damage to other materials or affect their performance.
  • At the same time, in some special applications, such as in the heat dissipation of some electronic devices, it also needs to consider compatibility with electronic components and circuits.

 

 

Fields of application:

1. High-temperature process in industrial production

  • In the high-temperature production process of some chemical, metallurgical and other industries, 90°C thermal management PCM can be used to control the temperature of equipment or reaction environment.
  • For example, in some chemical reactions, when the reaction temperature is close to 90°C, PCM can absorb excess heat, maintain the stability of the reaction temperature, and improve the efficiency of the reaction and the quality of the product.
  • In the metallurgical process, some equipment or components work at high temperatures, and PCM can act as a thermal buffer to prevent damage to the equipment caused by excessive temperature.

2. Solar thermal utilization

  • In a medium and high temperature solar collector system, when the collector temperature rises to around 90°C, the PCM can absorb the heat and store it.
  • The heat is then released when needed (e.g. at night or on cloudy days) and used to heat water or drive other thermal cycles, improving the efficiency of solar energy and the stability of energy supply.

3. High temperature heat dissipation of electronic equipment

  • Some high-performance electronic components generate a lot of heat when they work, which can reach higher temperatures. 90°C Thermal Management PCM can be applied to the heat dissipation system of these electronic components.
  • When the temperature of the component is close to 90°C, the PCM absorbs heat through phase change, preventing the component from being damaged due to overheating, and ensuring the normal operation and reliability of the electronic equipment.
  • For example, in some high-power electronic devices or servers and other equipment, PCM heat dissipation technology can effectively reduce the temperature of the equipment and improve the performance and life of the equipment.

4. Thermal management of automobile engine

  • In a car engine, the temperature in some parts may rise to around 90°C when the engine is running. 90°C Thermal Management PCM can be used in the thermal management system of the engine to absorb part of the heat, reduce the risk of engine overheating, and improve the efficiency and life of the engine.
  • At the same time, it helps the engine reach the right operating temperature faster, reducing wear and emissions during cold starts.

 

 

First aid measures:

  • In case of eye contact, rinse with plenty of water. Skin-to-skin contact: Remove contaminated clothing and shoes. Rinse with soap and water for 15 minutes. Accidental ingestion: Rinse your mouth and send to the hospital as soon as possible.

 

 

Packaging and storage:

  • Wrap:25kg/bag
  • Storage: Store in a dry, cool, ventilated place without sharp objects.

 

 

90°C Thermal Management PCM Can Be Used To Control The Temperature Of Equipment Or Reaction Environments 0

 

90°C Thermal Management PCM Can Be Used To Control The Temperature Of Equipment Or Reaction Environments 1

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