材料科学
维氏硬度试验
微观结构
陶瓷
玻璃陶瓷
复合材料
兴奋剂
镓
硫系玻璃
压痕硬度
矿物学
冶金
硫系化合物
光电子学
化学
作者
Ziqiang Liu,Jierong Gu,Guang Jia,Wenfeng Zheng,Shuangquan Xie,Xiang Shen,Zijun Liu
摘要
In this work, bulk chalcogenide glasses (Ge 35 As 10 S 55 ) 100-x Ga x (x = 0,1,3,5,7,9) were prepared using the traditional melt quenching method, and glass ceramics were prepared to improve the mechanical properties through heat treatment. Optical, thermal and mechanical properties of the glass and glass ceramic samples were measured by FTIR, DSC and Vickers hardness analysis. Results indicate that glass samples exhibited about 70% IR-transmission around 3–12 µm. The hardness of these pure glasses increased from 231 to 282 kgf/mm 2 through gallium doping and improvement of melt-quenching conditions. The type of nanocrystals precipitated in the glass ceramics were characterized by XRD. Existence of a γ-Ga 2 S 3 crystal phase enhanced the hardness of the glass. Also, the size and distribution of nanocrystals in the microstructure of the glass ceramics were investigated by SEM. The hardness of (Ge 35 As 10 S 55 ) 93 Ga 7 glass reached to 302.6 kgf/mm 2 by precipitation of nanocrystals with diameter smaller than 500 nm.
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