Abstract:
The world pottery history is replete with different shapes and designs as well as various technical
ways of firing and decorating. The purpose of this study is to evaluate the effect of this reducing
firing on different color oxides in two alkaline-boron and lead-boron glaze bases. The question
raised in this study is that what effects do the different bases of lead-boron and alkali-boron
glaze have on the type of color obtained from the selected color oxides, including copper, iron,
antimony, tin, zinc and their composition? This study is practical in purpose and experimental in
the method. Data collection has been done through library sources and documentary and in the main
sections of the research by experimentation and observation and qualitative analysis. Here, tested
samples of the same composition )Chinese ceramic( were examined adjacent to the same fuel )Saw
dust( at 650° C. The results demonstrate the effect of the base enamel type on the level of
reduction and type of obtained color. At the lead-boron base, we see that almost all the samples
reduce uniformly forming metallic compounds on the surface of darker and more mature glaze and
staining, while there is a difference in the amount of surface polishing due to the additives.
Results in an alkaline-boron base appeared as wavy colors effects and brighter colors. The results
also show that the presence of lead in the lead-boron glaze is a contributing factor to faster
reduction of metals on the glaze surface, while raising the furnace temperature and adding fuel
help further reducing the alkali-boron glaze surface. In general, the type of color, transparency
and uniformity of the glaze can be affected by the type of base glaze and the type of dyes.