This study is an experiment paper analyzing possibility of whether nontoxic bismuth can be replaced with toxic lead used in glaze by comparing melting points of lead and bismuth. Lead is a metal whose toxicity is accumulated in human body, and is prohibited from using in many areas. In industrial sites, the metal which can be replaced with lead is bismuth. Lead has merit to lower the melting point of metal contained in glaze. To examine whether bismuth also has such a merit, the glaze containing lead and the glaze containing bismuth were burned to the temperature of 1250℃(OF) to compare melting points of them. The experiment was proceeded as follows. This study added lead and bismuth to ferro Frit3110 and feldspar used in high temperature glaze, respectively, and observed reactions. This study used four kinds of bismuth: pure bismuth, bismuth nitrate, bismuth oxide, and bismuth carbonate, and prepared the proportions of lead and bismuth as 20%, 40%, 60%, and 80%, and frit and feldspar were added to them to make the total proportions of components 100%. Then, glaze was put on the first stage pottery shard to observe and compare the temperatures when melting started, and softening temperatures. It was found that, when frit was added to bismuth, the larger proportion of bismuth was, the narrower the range of melting was, that, when Buyeo feldspar was added, the larger proportion of bismuth was, the lower melting point was, and the narrower the range of melting was. Such results were the same when frit and feldspar were added to lead. It was also found that, the larger the proportion of bismuth was, the more the color of glaze became yellow, and the lower the temperatures of melting and softening were. The analysis of this study found that bismuth can be used as solvent to lower melting temperature, and that it is effective in low and middle and high temperature glazes. In particular, bismuth is useful because it can shorten the firing time and it is nontoxic.