[1] Y T Wang, H Q Sun, Z Y Guo, et al. Structures and thermodynamic properties of ZnSe. Journal of Function Material, 41, 481-483,487(2010).
[2] N G Wei, L P Jiang, D X Li, et al. Study on the defects of ZnSe polycrystalline materials prepared by chemical vapor deposition method. Journal of Synthetic Crystals, 49, 152-157(2020).
[3] Q Chen, X H Fu, Z H Jia, et al. Research on processing technology of ZnS crystal. Journal of Changchun University of Science and Technology (Natural Science Edition), 36, 119-123(2013).
[4] W Y Zhang, H Gao. Microstructure properties and fabrication of machinable ceramics. Journal of Synthetic Crystals, 34, 169-173(2005).
[5] B R Lawn, D B Marshall. Hardness, toughness, and brittleness: an indentation analysis. J Am Ceram Soc, 62, 347-350(1979).
[6] A R Boccaccini. Machin ability and brittleness of glassceramics. J Mat Pro Tech, 65, 304-306(1997).
[7] Yu H Z. Infrared Optical Material [M]. Beijing: National Defense Industry Press, 2007: 143, 164, 183, 252. ( in Chinese)
[8] D Townsend, J E Field. Fracture toughness and hardness of zinc sulphide as a function of grain size. J Mater Sci, 25, 1347-1352(1990).
[9] K B Popov, S S Dimov, D Pham, et al. Micromilling: Material microstructure effects. Proceedings of the Institution of Mechanical Engineers Part B: Journal of Engineering Manufacture, 220, 1807-1813(2006).
[10] J F Yu, G J Wu, L Zhu. Research progress of the infrared material zinc selenide preparation methods. Guangdong Chemical Industry, 16, 141-142(2017).
[11] Y Y Yang, Z Y Fang, Y C Cai, et al. Growth of transparent polycrstal zinc selenide by chemical vapor deposition. Journal of the Chinese Ceramic Society, 32, 946-949(2004).
[12] H Yang, L Guo, N G Wei. Numerical simulation of CVDZnSe gas flow pattern and experimental study on optical properties. Journal of Crystal Growth, 546, 125779(2020).
[13] N G Wei, L P Jiang, D X Li, et al. A hot isostatic pressing strategy for improving the optical transmission of polycrystalline CVD ZnSe. Applied Physics A, 125, 777(2019).
