Ceramic particles have the characteristics of non fading, hardness and durability, and long service life. What are the five stages of combustion for these ceramic particles? Here is the editor's summary:
1. Preheating stage: When the temperature is below about 300, the main purpose is to preheat the embryo and eliminate residual moisture in the embryo.
2. Oxidative decomposition stage: The temperature is around 300-950, mainly responsible for the physical and chemical changes of the glaze, including the mass reduction of ceramic particles, carbonate decomposition, and time-dependent crystal transformation.
3. High temperature stage: The sintering temperature is about 950 to higher, at which point the ceramic particle embryo begins to form a liquid phase and the glaze layer begins to melt.
4. High temperature insulation stage: The main function is to reduce the temperature difference between different parts of the product, including the surface and interior of the same part.
5. Freezing stage: During the freezing process, the liquid phase solidifies, and the crystal structure changes as the embryo gradually solidifies.
Ceramic particles have excellent thermal insulation effects. In previous solvent based coatings, thermal insulation pigments and hollow vacuum ceramics were added to effectively enhance the thermal insulation effect and prevent road surface temperature from rising. It is made by firing raw materials of porcelain, which are fired into color without deterioration, discoloration, or fading of the material.
Ceramic particles have good water dispersing properties and can also reduce noise. And the construction is simple, it can be accessed within one to two hours after construction. I hope the above content is helpful to you.
Editor: Nancy
