CVD金刚石厚膜具有极高的硬度,使得对其进行表面抛光极为困难.传统的机械抛光方法既不经济又耗费时间,而一些新的抛光技术又由于实验条件限制而难以推广.针对以上情况,我们寻求到一种新的化学刻蚀方法,即利用稀土化合物浆料对金刚石厚膜生长表面进行刻蚀,破坏表面的晶粒使之成为晶骸,降低表面的耐磨性,以提高表面粗糙的金刚石厚膜的抛光效率.
CVD diamond with high electrical, optical and thermal quality has been used in many applications. However,
its inert chemical nature and high temperature stability make it difficult to be processed. A highly available etching technique compatible with
existing diamond processing is desirable. In this paper, CVD diamond thick films were etched with rare-earth compound ink prepared by the authors. The etching
process is taken in the atmosphere at a temperature below the oxidation temperature of diamond. The technique uses inexpensive and safe rare-earth compound ink and the experimental results show that the processing is simple
and efficient for polishing the CVD diamond thick films rapidly. The results were studied by SEM.
参考文献
| [1] | Jin S, Graebner J E, et al. Nature, 1993, 29 (352): 822--823. [2] Ralchenko V G, et al. Applications of Diamond Films and Related Materials: Third International Conference, 1995. 225--232. [3] Yoshihiro Mori, et al. Applications of Diamond Films and Related Materials: Third International Conference, 1995. 233--240. [4] Bai Yi-Zhen, et al. Chin. Phys. Lett., 1998, 15 (3): 228--229. |
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