代表性论文及专利: |
[1] Y Cui, M. Ding, T Sui*, W. Zheng, G. Qiao, S. Yuan, X. Liu. Role of nanoparticle materials as water-based lubricant additives for ceramics, Tribology International, 2020, 142: 105978 [2] X. Zhang, Y Cui*, X. Liu, T. Sui, C. Ji, D. Zhang. Wettability modulation of nano-crystalline diamond films via in-situ CVD process, Surface Coatings and Technology, 2019, 375: 681-687 [3] D. Zhang, Y Cui*. Surface chemical modification of CVD diamond films by laser irradiation, International Journal of Refractory Metals and Hard Materials, 2019, 81: 36-41 [4] Y Cui*, F. Sun. Simulation and experimental research on adhesion enhancement between diamond films and WC-Co substrates by employing amorphous SiC interlayer, Surface Review and Letters, 2019, 26: 1850201 [5] T. Sui, Y Cui*, B. Lin, D. Zhang. Influence of nanosecond laser processed surface textures on the tribological characteristics of diamond films sliding against zirconia bioceramic, Ceramics International, 2018, 44: 23137-23144 [6] Y. He, Y Cui*. Enhancement of adhesion strength and tribological performance of CVD diamond films on tungsten carbide substrates with high cobalt content via amorphous SiC interlayers, Surface Review and Letters, 2018, published on line [7] Y Cui, W. Wang, F. Sun*, B Shen. A study of CVD diamond deposition on cemented carbide ball-end milling tools with high cobalt content using amorphous ceramic interlayers, Diamond and Related Materials, 2015, 59: 21-29 [8] Y Cui, T. Zhao, F. Sun*, B Shen. Amorphous SiO2 interlayers for the deposition of adherent diamond films onto WC-Co inserts, Transactions of Nonferrous Metals Society of China, 2015, 25: 3012-3022 [9] Y Cui, B Shen, F. Sun*. Diamond deposition on WC-Co substrate with amorphous SiC interlayer, Surface Engineering, 2014, 30: 237-243 [10] Y Cui, B Shen, F. Sun*. Influence of amorphous ceramic interlayers on tribological properties of CVD diamond films, Applied Surface Science, 2014, 313: 918-925 [11] Y Cui, J Zhang, F Sun*, Z Zhang. Si-doped diamond films prepared by chemical vapour deposition, Transactions of Nonferrous Metals Society of China, 2013, 23: 2962-2970 [12] 崔雨潇等,一种制备非晶碳化硅陶瓷-金刚石复合涂层的方法,ZL201510056617X,2018 [13] 崔雨潇等,一种面向图形化金刚石薄膜制备的微增减材复合制造方法,ZL2017114981425,2020 [14] 崔雨潇等,基于微增减材同步复合制造金刚石微光栅的方法及装置,ZL202010743211X,2022 [15] 崔雨潇等,基于激光辐照的DLC-纳米金刚石复合涂层制备方法,ZL2020113729265,2022 [16] 崔雨潇等,一种基于飞秒激光增材制造的金刚石与金属连接方法,ZL2020107432035,20222022 |