科技是未来古陶瓷鉴定的重要辅助手段,但现有的科技介入尚处于摸索阶段,尤其在方法运用、文理结合、模式确定以及数据库建立等方面尤显薄弱。本课题在吸收已有成果的基础上,利用高校多学科的优势,以显微技术为主要手段,结合物理学、光学、数学以及计算机等学科,对越窑青瓷的釉层气泡进行综合研究。这一研究旨在探索一条科技测定古陶瓷的途径,其方法和成果在一定程度上弥补了以往研究的不足,对于未来科技陶瓷的发展具有一定的参考意义。 Technology is an important adjunct to the identification of ancient ceramics in the future. However, the existing intervention in science and technology is still in a groping phase. In particular, it is particularly weak in terms of methods, combination of arts and sciences, model determination and database establishment. On the basis of assimilating the existing achievements, the subject makes full use of multidisciplinary advantages of colleges and universities to take microscopy as the main measure, combined with physics, optics, mathematics and computer science and other disciplines to carry out a comprehensive study of glaze bubbles of Yue kiln celadon. The purpose of this study is to explore a way of measuring ancient ceramics by science and technology. The methods and achievements of this study make up for the deficiencies of previous studies to a certain extent and have some reference significance for the future development of science and technology ceramics.