This study was to find out color formation and change of blue and white porcelain's glaze available for industrial and general purposes. As a basic composition method of each area influenced by the substitution of raw materials of alkaline earths of b...
This study was to find out color formation and change of blue and white porcelain's glaze available for industrial and general purposes. As a basic composition method of each area influenced by the substitution of raw materials of alkaline earths of basic oxides, an experiment was processed from selecting carefully chosen raw materials for this study. As a study method, by selecting random locations in nine places of A, B, C, D, E, F, G, H, and I in each area of the seger method (fig. 1) centered on mol rates of alumina and silica, the test was processed. If the result is arranged, it is like the next.
In each area of A, B, D, and F, on the whole, a specimen of blue and white porcelain was made in a state that cracks were created. In area C, a specimen was made in a state of lack of melting. In area G and F, a matt-style specimen with soft surface was made. In area E and I, a specimen with high transparency outstanding in a blue and white under drawing was made. Also, through this experiment, from the fact that color formation of blue and white was influenced a lot according to the substitution of alkaline earths deciding the gloss nature near colorlessness in grand feu, a specimen changed from blue to dark green could be found too. Lastly, it is expected that component rates and specimens between raw materials used in this test will be data available in color formation analysis of blue and white in the future.