The laminating machine requires high temperature control. If the temperature is too high and the heating time is too long, the film quality will decrease and there will be no heating. If the monotonic temperature transition is too high, the surface of the adhesive will crust, causing the film to bubble. Excessive thermal stress can also cause the film to lose its elasticity, resulting in decreased performance and easy tearing.

There are three methods of heat dissipation in physics: conduction, convection, and radiation. The first two methods have been eliminated, so as long as thermal radiation is used to deal with them, radiation heat dissipation can be unaffected by the temperature of the surrounding medium of the object. As long as the temperature of the object exceeds zero degrees, the object will radiate heat outward. However, relying solely on the object’s own heat radiation is very small and cannot effectively handle object heat dissipation and cooling. Simply adding the object’s heat radiation can lower the object’s temperature. In this way, applying a layer of heat dissipation coating on the surface of the object can greatly enhance the object’s heat radiation and reduce its temperature.
Thermal insulation coating improves heat exchange through infrared radiation, which is not affected by surrounding media. The heat dissipation of the coating can be applied in a vacuum environment. ZS-411 radiation cooling coating not only improves heat exchange, but also has good self-cleaning, insulation, anti-corrosion, waterproof, acid and alkali resistance, and easy construction characteristics.