[1] Bing Chen, Bing Guo, Qingliang Zhao, et al. Ultra precision grinding of hot pressed zinc sulfide. Optical Precision Engineering, 22, 2109-2116(2014).

[2] Guanguan Zhou, Haiou Yu, Lihe Zheng, et al. high temperature properties of mid infrared optical materials. Infrared and Laser Engineering, 41, 554-558(2012).

[3] Huasong Liu, Chenghui Jiang, Shida Li, et al. Effect of vacuum heat treatment on optical and microstructure properties of ZnS thin films. Optical Precision Engineering, 25, 2038-2045(2017).

[4] gailing Li, Kaiyuan Sun, Renyu Feng, et al. Study on subsurface damage mechanism and common measurement methods. Coal Mining, 99-100(2008).

[5] Zihua Dai, Yongwei Zhu, Jun Li, et al. Study on measurement method of subsurface damage layer depth of K9 glass ground by consolidated abrasive. Diamond and Abrasive Tool Engineering, 6-12(2014).

[6] Qingpeng Li, Qian Bai, Bi Zhang. Detection of subsurface microcracks in monocrystalline silicon wafer after grinding by polarized laser scattering. Diamond and Abrasive Tool Engineering, 40, 87-92(2020).

[7] Jian Liu, Zhanlong Ma, Junlin Wang. Research status of subsurface damage detection technology for optical components. Laser & Optoelectronics Progress, 48, 15-21(2011).

[8] Ningchang Wang, Feng Jiang, Hui Huang, et al. Research status and development trend of subsurface damage detection of brittle materials. Journal of Mechanical Engineering, 53, 081204(2017).

[9] Yuanqiang Tan, Dongmin Yang, Cai Li, et al. Discrete element simulation of single crystal silicon processing crack. China Mechanical Engineering, 19, 2545-2548,2581(2008).

[10] Yuanqiang Tan, Dongmin Yang, Yong Sheng. Study of polycrystalline Al₂O₃ machining cracks using discrete element method. International Journal of Machine Tool& Manufacture, 48, 975-982(2008).

[11] Jianbin Wang, Rui Ma, Benchi Jiang, et al. Prediction of subsurface damage of single crystal sapphire by consolidation abrasive grinding. Surface Technology, 49, 345-351(2020).

[12] Yongwei Zhu, Xinlu Li, Zhankui Wang, et al. Subsurface damage prediction in consolidated abrasive grinding of optical hard and brittle materials. Optical Precision, 25, 367-374(2017).

[13] A Dop, B Pac. A bonded-particle model for rock. International Journal of Rock Mechanics and Mining Sciences, 41, 1329-1364(2004).

[14] Bing Chen, Haowen Jiao, Liang Luo, et al. Grinding removal mechanism of ZnS by multispectral CVD. Aerospace Materials Technology, 49, 90-94(2019).

[15] Xiulin Zheng, Zhengtang Liu. Comparison of different preparation methods and properties of ZnS. Materials Guide, 35-38(1995).

[16] Zhankui Wang, Yongwei Zhu, Xinlu Li, et al. Average cutting depth and subsurface damage behavior of magnesia alumina spinel by consolidated abrasive grinding. Acta Silicate Sinica, 45, 402-409(2017).

[17] Jingfei Yin, Qian Bai, Bi Zhang. Methods for detection of subsurface damage: A review. Chinese Journal of Mechanical Engineering, 31, 1-14(2018).