while calcite helps in lowering the melting point, reducing energy consumption during firing. The fine particle size ensures good plasticity and workability of the ceramic body, resulting in products with excellent surface finish and dimensional accuracy.
The project utilizes a combination of ball mills and air classifiers to achieve the desired fineness and particle size distribution. Specialized grinding media are used to prevent contamination, ensuring the purity of the final product. A rigorous quality control process includes regular analysis of the chemical composition, particle size, and impurity levels to meet the strict requirements of different industries.
Energy efficiency is a key focus of this project. High-efficiency motors and variable frequency drives are used throughout the production line to minimize energy consumption. Waste heat from the grinding process is recovered and used for drying, further reducing energy costs. This commitment to energy conservation not only lowers operational expenses but also contributes to a smaller carbon footprint.
