Comparative study on the Ru ware, Ru-type ware of Qingliangsi kiln and celadon of Zhanggongxiang kiln

Thirty-three porcelain shards (28 Ru ware and 5 Ru-type ware) unearthed from Qinglingsi kiln and 31 celadon fragments from Zhanggongxiang kiln were studied systematically for tracing their correlation and difference in glaze and body characteristics through a variety of characterisation methods. Samples without HF corrosion were applied to achieve the microstructure and composition details by SEM and TEM. Results exhibited that there were certain similarities between Ru ware, Ru-type ware and Zhanggongxiang kiln celadon in glaze colour and thickness, body features, fracture structure; however, they showed obvious differences in body thickness, chemical composition of glaze and body, phase constituents and microstructure of glaze. Plentiful needle-like diopside were widely distributed in Zhanggongxiang kiln celadon glazes, while this type of crystals was only existed in few Ru and Ru-type ware glazes with small content. Besides, a large amount of residual quartz was present over the Ru ware glazes, which could have relation to the incorporation of agate. The liquid-liquid phase separation structure (Ca-rich droplets and Si-rich matrix) was generated within the interspaces of anorthite clusters or around the brims of anorthite needles or columns. The occurrence of phase separation was generally accompanied by Al2O3 consumption, but suppressed in the areas far from anorthite due to the rise of Al2O3 content, indicating that Al2O3 was the most sensitive constituent for this glaze behaviour. The distinguished size, shape and distribution of phase-separated droplets or interconnected structures were closely associated with the scale and crowding level of anorthite crystallisation.

Automated summary

A systematic study was conducted on porcelain shards and celadon fragments from different kilns. The results showed similarities and differences in glaze color, body features, fracture structure, glaze composition, and glaze microstructure. The presence of needle-like diopside and residual quartz varied among the samples.