Ultramarine pigments were effective combined from zeoliteAn acquired from kaolin waste. This waste has been utilized as a magnificentsource of silicon and aluminum for zeolite synthesis on account of its highkaolinite fixations and low substance of other frill minerals. The expense isnaturally not exactly the industrialized item. Color added substances (Sulfurand Sodium Carbonate) were blended with different extents of zeolite An andfurther calcined for 5 h at 500 °C. They were portrayed by XRD and XRFnotwithstanding visual classification by color and shade. These items showcolors from blue to green at different shades, both impacted by the measure ofadded substances and cooling rate after calcination. In this manner, adifferent amount of the same added substances in the same zeolitic matrix givesan expansion in the color power. Cooling rate after calcination incites thecolor change which is considerably imperative in the pigments generation. Fly ash had the benefit of being formless, though thecustomary beginning reagent, kaolin, should have been warmth treated before theultramarine synthesis to debilitate its structure. A correlation of thescanning electron micrographs of fly ash, fly ash treated at 1 000 °C, fly ashresponded with sodium carbonate at 860 °C and the ultramarine itemsdemonstrated that sulfur had a structure-coordinating impact.