萧金瑞
萧金瑞
研究领域:高性能微纳制造、摩擦学及表面工程技术
办公地点:工程北楼
电子邮箱: meexiaojinrui@gzhu.edu.cn
个人简介:
研究方向为高端装备零部件表面高性能微纳制造与耐磨调控。担任广州市金属材料强化研磨高性能加工重点实验室副主任。主持广东省自然科学-海上风电联合基金、广东省科技专项资金项目、教育部协同育人、广州市科技计划等项目。以第一作者/通讯作者在J Mater Process Tech、J Manuf Process、Wear、Constr Build Mater等权威期刊发表SCI论文10余篇,授权发明专利21件,指导/协助指导硕士生5人。
工作经历:
◆2019-至今 广州大学 广州市金属材料强化研磨高性能加工重点实验室 副主任
◆2024-至今 广州大学 机械与电气工程学院 高级实验师
◆2016-2024 广州大学 机械与电气工程学院 实验师
◆2015-2016 广州机械科学研究院 技术工程师
主持/参与的研究项目:
[1] 广东省自然科学-海上风电联合基金项目,2023A1515240039,基于激光-强化研磨的海上风电轴承滚道复合微结构创成与抗磨研究,2023.11-2026.10,在研,主持
[2] 广东省科技专项资金项目,2019B020404,面向山区农业的高效智能节水灌溉应用研究,2019.09-2021.08,结题,主持
[3] 广州市科技计划,202102080225,机器人减速器圆锥滚子轴承套圈强化研磨加工表层微结构创成及调控研究,2021.03-2023.04,结题,主持
[4] 教育部产学研协同育人项目,230802600251911,新工科背景下的《先进制造技术》课程建设研究,2024.01-2025.12,在研,主持
[5] 教育部产学研协同育人项目,202002160014,面向机器人控制系统实践课程的师资培训,结题,主持
[6]科技部国家重点研发专项,智能餐厅机器人关键技术与装备集成示范2023YFD2101004,2023.12-2027.11,参与
研究成果:
1.近期发表的部分期刊文章
[1] Jinrui Xiao, Xincheng Xie, Xiaochu Liu, Dingbin Li, Yun Zhou. Fabrication of gradient structure for enhancing wear resistance of GCr15 bearing steel friction shim, Wear 552-553 (2024) 205449.(中科院一区,Top)
[2] Jinrui Xiao, Yiteng Zhang, Zhuan Zhao, Xincheng Xie, Zhongwei Liang. Improved wear resistance of 440C steel ball via ultrasonic strengthening grinding process. J. Mater. Process. Tech. 322 (2023) 118198.(中科院一区,Top)
[3] Jinrui Xiao, Yanhui Liu, Jianhui Wang, Ping Tan, Fulin Zhou. Enhanced wear resistance of 304 stainless steel by an improved method based on ultrasonic strengthening grinding process and PTFE coating, Constr. Build. Mater. 431(14) (2024) 136598.(中科院一区,Top)
[4] Jinrui Xiao, Yiteng Zhang, Xincheng Xie, Wenfeng Ding, Zhuan Zhao, Zhongwei Liang. Mechanical property improvement of wire-arc additive manufactured 06Cr19Ni9 steel based on ultrasonic strengthening grinding process, J. Mater. Res. Technol. 30 (2024) 7969-7980.(中科院二区,Top)
[5] Jinrui Xiao, Bosen Zhang, Yujie Lin, Hui Tang, Zhongwei Liang, Xincheng Xie. Tribological and mechanical properties improvement of G20CrNiMo alloy via fabricating gradient composite layer through ultrasonic strengthening grinding process, Mater. Today Commun. 40 (2024) 109819.(中科院三区)
[6] Zhuan Zhao, Xincheng Xie, Gongbin Tang, Muhammad Amin Padhiar, Jinrui Xiao*(通讯作者), Zhongwei Liang*. Study on the effect of the strengthen grinding process surface coverage on the micro-morphology, micro-hardness, roughness, and residue stress of GCr15 bearing steels, J. Manuf. Process. 99 (2023) 362-372. (中科院二区)
[7] Xincheng Xie, Peng He, Jiayi Chen, Tao Zou, Yupeng Zhang, Jinrui Xiao*(通讯作者), Zhongwei Liang*. Enhancing the tensile performance of 12Cr17Mn6Ni5N steel weld joints through strengthened grinding process-induced gradient structures, J. Mater. Res. Technol. 29 (2024) 427-438.(中科院二区,Top)
[8] Zhuan Zhao, Weilong Chen, Xincheng Xie, Teng Ma, Shanshan Huang, Jinrui Xiao*(通讯作者), Zhongwei Liang*. Wear resistance of Cronidur 30 steel enhanced by optimizing the strengthened grinding process (SGP) parameters using a Box-Behnken design (BBD) method, J. Manuf. Process. 122 (2024) 7-20.(中科院一区,Top)
2.近5年授权专利部分目录
[1] 一种圆锥滚子轴承内圈滚道表面微流互通微结构及加工方法, ZL 202110880885.9
[2] 一种全自动轴承内圈滚道的超声强化研磨加工设备, ZL202110847032.5
[3] 一种圆锥滚子轴承内圈的冲研强化自定心柔性夹具, ZL202111351384.8
[4] 一种用于轴承强化研磨的自动上下料装置, ZL202010024198.2
[5] 一种圆柱滚子轴承滚动体超声强化加工系统和方法, ZL202210223452.0
[6] 一种全自动加工的圆柱滚子超声强化研磨机及加工方法, ZL202211147542.2