45°C Long-Term Stable Phase-Change Inorganic Materials Featuring Excellent Thermal Management

45°C Long-Term Stable Phase-Change Inorganic Materials Featuring Excellent Thermal Management

Basic composition of thermal management phase change materials:

• Such materials are usually composed of a variety of components, including organic compounds, inorganic compounds, or mixtures of them.
• For example, some common organic phase change materials such as paraffin, fatty acids, etc., and inorganic phase change materials such as salt hydrates, metal alloys, etc., may be used to prepare 45℃ thermal management phase change materials.
• By adjusting the proportions and types of different components, the phase transition temperature and other properties of the material can be precisely regulated.

Product features:
1. Phase change characteristics

• 45 ° C Thermal management The key property of phase change materials is that the phase transition occurs near this specific temperature of 45 ° C.
• When the temperature reaches the phase transition temperature, the molecular or crystal structure of the material changes, causing its physical state to change from solid to liquid (or from liquid to solid), accompanied by a large amount of heat absorption or release in the process.

2. Thixotropy

• It is usually solid at room temperature, but it will have thixotropy above the phase change temperature, that is, the material will become easy to flow when subjected to external force, and can fill the small gap between the heating body and the radiator, squeeze the air, reduce the thermal resistance of the contact surface, and thus form a good thermal conductivity interface.

3. Natural stickiness

• Natural adhesion at room temperature, no additional use of adhesive adhesive, easy to paste and fix in a variety of application scenarios.