Ceramic particles are made from ceramic materials, which do not deteriorate or fade, and have consistent colors. In previous solvent based coatings, thermal insulation pigments and hollow vacuum ceramics were added to effectively enhance insulation and prevent road surface temperature rise. What is its crystallization performance?
Crystallization has a significant impact on the adhesive properties of polymers, especially in the temperature range from the glass transition temperature to the melting point of ceramic particles. The influence of crystallinity on adhesive properties depends on its crystallinity, grain size, and crystal structure.
Generally speaking, as crystallinity increases, yield stress, strength, and color ceramic particle modulus increase, while tensile strength, elongation, and impact resistance decrease. Due to different crystallinity, the performance indicators of the same colored ceramic particles may differ several times.
The interaction force between crystalline ceramic particles increases, making it difficult for molecular chains to move, resulting in polymer hardness and brittleness, and a decrease in bonding performance. However, crystallization increases the softening temperature of the polymer, and the sensitivity of the mechanical properties of colored ceramic particles to temperature changes decreases. Co polymerization or blending can reduce crystallinity and increase adhesion.
The above are the crystallization properties of ceramic particles, which can be used as a reference when in use. It is made of clay and is harmless to the environment and health. When purchasing, you can communicate with the manufacturer to fully understand their performance before making a plan. I hope the above content is helpful to you.
Editor: Nancy
