Formula optimization is the core of color control. By adjusting the chemical composition of the body and glaze, the firing temperature range can be broadened, enhancing adaptability to process fluctuations.

Establishing a color database to record color data from different batches and under different production conditions can provide a reference for subsequent production and further reduce the risk of color difference.

As minimalism becomes increasingly homogenized and industrial style appears somewhat cold, high-definition inkjet antique brick—a material that blends the texture of time with artistic style—is quietly becoming the ideal medium for creating a unique retro

Optimization of the firing profile requires coordinated efforts from multiple dimensions, including heating rate, peak temperature, holding time, cooling method, atmosphere control, green body density, and intelligent control.

Ensuring the colorfastness of solid color bricks is a complex systems engineering project involving pigment chemistry, crystallography, thermodynamics, and environmental science.

By arranging multiple thermocouples and atmosphere sensors at key locations in the kiln, data such as temperature, pressure, and oxygen content are collected in real time and transmitted to the central control system.