研究成果清单(包括:论文、专著、专利、标准、软件著作权等,详细内容可另附件,) 期刊论文 (1) Weiming Mao; Kun Zhou; Intelligent identification of machining damage in ceramic matrix composites based on deep learning, Composites Part A: Applied Science and Manufacturing, 2024, 187:108487. SCIE. 第一标注 (2) Kun Zhou; Guijian Xiao; Yun Huang; Understanding machinability improvements and removal mechanism of ceramic matrix composites during laser-ablating assisted grinding, Wear, 2024, 538-539: 205199. SCIE. 第一标注 (3) Kun Zhou; Xin Li; Guijian Xiao; Yun Huang; The critical role of machining-induced damages in tribological and wear behavior of Cf/SiC composite, Friction, 2024, 13(4):9440932. SCIE. 第一标注 (4) Guijian Xiao; Zhengyu Yang; Kun Zhou; Yi He; Xin Li; Significant improvement of machinability of Cf/SiC composites through matching laser scanning spacing and abrasive belt grain size, Chinese Journal of Aeronautics, 2025, 38(1):103017. SCIE. 第一标注 (5) Kun Zhou; Xinyu Chen; Xin Li; Yonghao Zen; Zhengyu Yan; Yun Huang; Effect of laser-ablating assisted grinding process on subsequent tribological behavior of Cf/SiC composite, Journal of the European Ceramic Society, 2025, 45(12):117434. SCIE. 第一标注 (6) Guijian Xiao; Xin Li; Kun Zhou; Zhengyu Yang; Comprehensive investigation into grinding characteristics and damage behavior of Cf/SiC composite modified by picosecond-laser ablating, Composite Structures, 2023, 325:117600. SCIE. 第一标注 (7) Qiankai Gao; Yonghao Zeng; Kun Zhou; Probing formation and evolution of SiC/SiC composites surface/subsurface damages induced by diamond-grain scratching, Engineering Fracture Mechanics, 2025, 316:110890. SCIE. 第一标注 (8) Zhengyu Yang; Kun Zhou; Jing Wu; Xinyu Chen; Yun Huang; Understanding laser ablating mechanism of Cf/SiC composites: Micro heat transfer and subsurface microstructure transformation, Applied Surface Science, 2025, 681:161514. SCIE. 第一标注 (9) Guijian Xiao; Xin Li; Kun Zhou; Yi He; Zhengyu Yang; Reducing Cf/SiC composite damages through collaborative control of laser ablating depth and grinding modes, Composite Structures, 2024, 339:118158. SCIE. 第一标注 (10) Guijian Xiao; Zhengyu Yang; Kun Zhou; Xin Li; Subsurface damage inhibiting and synchronous removal behavior of Cf/SiC composites with laser-induced controllable ablation during abrasive belt grinding, Applied Surface Science, 2023, 639:158283. SCIE. 第一标注 (11) Kun Zhou; Guijian Xiao; Yun Huang; Fabricating physicochemical microstructures with super hydrophilicity on Cf/SiC composites surface via picosecond-laser induced ablation, Ceramics International, 2023, 49(21):34291-34302. SCIE. 第一标注 (12) Kun Zhou; Guijian Xiao; Jiayu Xu; Yun Huang; Wear evolution of electroplated diamond abrasive belt and corresponding surface integrity of Inconel 718 during grinding, Tribology International, 2023, 177:107972. SCIE. 第一标注 (13) Zhenyang Liu; Kun Zhou; Jianhui Zhu; Zhirong Liao; Lai Zou; Dongdong Xu; Fabricating ultra wear-resistant surfaces on titanium alloy by combining laser-induced modification with abrasive belt grinding, Tribology International, 2024, 200:110160. SCIE.第一标注 (14) Zhenyang Liu; Kangkang Song; Yingxin Wang; Kun Zhou; Ruisong Jiang; Zhirong Liao; Lai Zou; Yun Huang; Enhancement of grinding titanium alloy fatigue performance via synergistic effect of low surface roughness and gradient microstructure, Chinese Journal of Aeronautics, 2025, 104008. SCIE. 第一标注 (15) Guijian Xiao; Youdong Zhang; Bao Zhu; Hui Gao; Yun Huang; Kun Zhou; Wear behavior of alumina abrasive belt and its effect on surface integrity of titanium alloy during conventional and creep-feed grinding, Wear, 2023, 514-515:204581. SCIE. 第一标注 (16) Zhenyang Liu; Yingxin Wang; Kangkang Song; Kun Zhou ; Ruisong Jiang; Zhirong Liao; Lai Zou; Yun Huang; Achieving finished surface and anti-fatigue performance improvements of titanium alloy through precision abrasive belt grinding-polishing process, Tribology International, 2025, 215:111467. SCIE. 第一标注 (17) Jianchao Huang; Jianhui Zhu; Kun Zhou; Zhenyang Liu; Yun Huang; Probing wear mechanism of Ti6Al4V micro-textured surfaces processed by laser-assisted grinding, Journal of Alloys and Compounds, 2025, 1010:178272. SCIE. 第一标注 (18) Ying Liu; Shayu Song; Guijian Xiao; Yun Huang; Kun Zhou; A high-precision prediction model for surface topography of abrasive belt grinding considering elastic contact, The International Journal of Advanced Manufacturing Technology, 2023, 125(1-2):777-792. SCIE.第一标注 (19) 吴婧; 周坤; 江桂云; 黄云; SiC_f/SiC复合材料激光诱导烧蚀辅助砂带磨削机理与工艺性能评价, 机械工程学报, 2025, 1-13. EI. 第一标注
专利 (1) 周坤; 陈欣宇; 一种基于激光烧蚀多尺度理化微结构的陶瓷基复合材料表面涂层强化粘结方法,2025-02-19, 中国,2025101831104. (2) 周坤; 刘振扬; 钛合金耐磨减摩表面的激光磨削复合加工制备方法,2024-11-15, 中国,2024116352555.
会议报告 (1) 周坤; SiCf/SiC复合材料磨削损伤的仿真与实验研究, 第五届金刚石杂志青年学者论坛, 太原, 2024-08-06至2024-08-07. (2) 周坤; Understanding machinability improvements of ceramic matrix composites during laser-induced ablation assisted grinding, 12th Asian-Australasian Conference on Composite Materials, 杭州, 2023-04-24至2023-04-27. (3) 周坤; Machinability Improvements and Removal Mechanism of Ceramic Matrix Composites during Laser-assisted Grinding, The 20th International Manufacturing Conference in China, 重庆, 2023-11-23至2023-11-25. (4) 周坤; Cf/SiC复合材料激光辅助磨削表面的摩擦磨损行为研究, 第十届高速与复合加工会议, 秦皇岛, 2024-09-20至2024-09-22. (5) 周坤; 基于超快激光诱导可控烧蚀的陶瓷基复合材料加工损伤去除方法, 2024年中国(国际)光整加工技术及表面工程学术会议, 太原, 2024-08-07至2024-08-09. (6) 周坤; 陶瓷基复合材料激光诱导烧蚀辅助磨削方法及机理, 第十五届全国摩擦学大会暨全国青年摩擦学学术会议,兰州, 2023-04-24至2023-04-27. (7) 周坤; 陶瓷基复合材料加工表面的摩擦磨损行为研究, 第十六届全国摩擦学大会暨全国青年摩擦学学术会议, 成都, 2024-11-01至2024-11-04. (8) 陈欣宇; 周坤; 基于激光诱导烧蚀理化微结构的航空陶瓷基复合材料耐磨涂层强化粘接方法研究, 2025先进功能薄膜(涂层)大会, 重庆, 2025-10-31至2025-11-02.
软件著作权 (1) 周坤; 毛卫明; 陶瓷基复合材料加工损伤智能识别软件V1.0, 2024SR0969987, 原始取得, 全部权利, 2024-06-10. (2) 周坤; 陶瓷基复合材料磨削表面粗糙度预测软件V1.0, 2025SR0065626, 原始取得, 全部权利, 2024-10-12. |
