【概况】

景秀并，山西闻喜人，天津大学机械工程学院副教授，硕士生/博士生导师，于1998年、2004年和2010年分别获得天津大学热能工程系学士、机械设计及理论硕士学位和机械工程博士学位，澳大利亚新南威尔士大学先进制造实验室访问学者(2011.02-2012.12)，美国西北大学先进制造实验室访问学者（2015.12-2016.03）。主要研究方向为精密/超精密加工理论、高能束加工、高档数控加工技术与装备、微细加工机理和表面功能等研究。讲授课程包括Advanced Manufacturing Technology、工程图学、先进制造技术实验、精密加工与纳米技术等。在IEEE/ASME Transactions on Mechatronics, Journal of Cleaner Production, Journal of Manufacturing Processes, Ceramic International 《机械工程学报》等国内外权威期刊发表论文60余篇，主持国家自然科学基金项目1项，并参与国家科技重大专项、国家重点研发计划、国家自然科学基金重点项目、面上项目和青年项目多项。欢迎具备数学、力学、材料、机械等相关学科背景的学生推免或者报考本人的硕士研究生。

【教育背景】

2003年3月 至 2010年3月 天津大学机械工程专业(博士) 2001年9月 至 2004年3月 天津大学机械设计及理论专业(硕士) 1994年9月 至 1998年6月 天津大学热能工程专业(学士)

【学术经历】

2017年7月 至 今 天津大学机械学院机械系 副教授 2004年7月 至 2017年6月 天津大学机械学院机械系 讲师 2015年12月 至 2016年3月 美国西北大学（Northwest University）机械工程系 访问学者 2011年2月 至 2012年10月 澳大利亚新南威尔士大学(University of New South Wales)机械工程系 访问学者

【讲授课程】

1．工程图学; 2．Advanced Manufacturing Technology; 3．机械制造技术基础课程设计 4．先进制造技术实验 5．精密加工与纳米技术

【教学成果】

获首届中国机械行业产教融合教育教学创新大赛华北赛区二等奖，主编教材2部。指导学生科研竞赛获奖10余项。 2020.06，天津大学本科毕业设计论文，优秀指导教师 2024.06，天津大学校级优秀硕士学位论文，指导教师

【研究方向】

1． 功能性微结构微细加工技术 2． 振动辅助微细加工理论及智能控制技术 3． 医工交叉（智能传感器、植入体表面改性等） 4． 高档数控加工技术及装备

【学术兼职】

2020年-今 巴基斯坦National University of Sciences and Technology博士学位论文海外评审专家 2023年-今 Micromachines特刊 Research Progress of Ultra-Precision Micro-Nano Machining客座编辑

【科研项目及成果】

作为项目负责人，负责的主要项目有(下面列出近十几年负责的项目，在此前负责的项目略)， 1、2018-01-01至 2019-09-30，天津市机械研究设计院，超声微铣削工艺技术与样机开发，合同经费13万，主持。 2、2019-09-23至 2021-09-30，天津市科学技术局, 天津市科技计划项目, 非谐振式振动辅助微铣削系统研发与工艺，合同经费21万，主持。 3、2021-10-01至 2024-09-30，天津市基金合作项目，高端精密智能锥齿轮成套加工装备研发及应用，合同经费59.5，主持。 4、2023，工业和信息化部装备工业一司， XXX，合同经费108，主持。 5、2024.09.30至2025-10-01，天津市科技局，产业提升专项，面向人形机器人关节应用的超精密“无感传动”齿轮高效插削关键技术，天津大学方负责人，经费50万。 6、2025.03.30-2027.09.30，通用技术集团天津第一机床有限公司，航空发动机转子类零件圆弧端齿磨床研制与验证，合同经费30万，主持。

【代表性论著】

1.Z.H. Zheng, X.B. Jing*, B.W. Song, et al., Extraction and Assessment of Features Using Shannon Entropy and Rényi Entropy for Chatter Detection in Micro Milling, Micromachines 2025, 16, 161. 2.J.L Sun, X.B. Jing*, S.X. Zheng, et al., Fabrication of porous surface by liquid-assisted laser ablation for enhancing hydroxyapatite deposition in zirconia, CERAM INT, Available online 9 January, 2025. 3. B.W. Song, D.W. Zhang, X.B. Jing*, et al., Enhanced cutting force model in micro‑milling incorporating material separation criterion, ADV MANUF, 2025,03. 4. B.W. Song, D.W. Zhang, X.B. Jing*, et al., Cleaner Production of Multi-Scale Surface Textures Using Integrated Ball-End and Vibration-Assisted Milling, J CLEAN PROD, 484 2024, 144316. 5. X.B. Jing, Y.Y. Ren, J. Huang, et al., On Cutting Forces Considering Elastic Recovery Accumulation in Micro-milling Process, INT J ADV MANUF TECH, 2024, 135:3271–3284. 6.J.L. Sun, D.W. Zhang, X.B. Jing*, et al., On ablation characteristics based on two-temperature model involving a multivariate lattice heat capacity by ultrashort laser-irradiated in zirconia, OPT LASER TECHNOL, 181,2024.111795. 7.J.L. Sun, D.W. Zhang, X.B. Jing*, et al., Investigation of microchannels on K24 alloy by femtosecond laser considering the incubation of laser pulse, APPL PHYS A-MATER, 2024. 8.B.W. Song, X.B. Jing*, F.J. Wang, et al., Development of a Novel Interchangeable Stage for Multidimensional Vibration-Assisted Micromilling, IEEE-ASME T MECH, 2024, 10.1109/TMECH.2024.3396988. 9. X.B. Jing, H. Yang, X.F. Song*, et al., A novel chatter detection method in micro-milling process using wavelet packet entropy. INT J ADV MANUF TECH, 2024, 131(14) 1-15. 10. B.W. Song, D.W. Zhang, X.B. Jing*, et al., Theoretical and Experimental Investigation of Surface Textures in Vibration-Assisted Micro Milling, Micromachines 2024, 15, 139, 1-17. 11.B.W. Song, X.B. Jing*, H. Yang, et al., On unsteady-cutting state material separation and dead metal zone modeling considering chip fracture, J MANUF PROCESS, 108 (2023)62-78. 12.J.L. Sun, D.W. Zhang, X.B. Jing*, et al., Experimental investigation and optimization on trepanning drilling in K24 superalloy by femtosecond laser via orthogonal experiment, INT J ADV MANUF TECH, August, 2023. 13. X.B. Jing, J.Y. Wang, X.F. Song, et al., A comparative investigation on micro-channel by using direct laser ablation and liquid-assisted laser ablation on zirconia, CERAM INT, Available online 17 July 2023. 14. X.B. Jing, J.Y. Wang, et al., Tribological behavior of zirconia ceramic with micro-channels produced by nanosecond laser, MATER TODAY COMMUN, Available online 14 July 2023, 106670 15. X.B. Jing, J.Y. Wang, Z.M. Lai, et al., Thermal model for nanosecond laser ablation Al2O3 considering temperature dependence, INFRARED PHYS TECHN, 131,2023, 104716. 16.Z.H. Zheng, X.B. Jing, Y.Y. Wang, et al., A Comparison of Wavelet Packet, Wavelet Leaders Multifractal, and p-Leader Multifractal Method in Chatter Detection, Nanomanufacturing and Metrology, March 2023 17.B.W. Song, X.B. Jing, Y.Y. Ren, et al., Design and experimentation of a Novel Separable Vibration-Assisted Stage, Nanomanufacturing and Metrology, June, 2023 18. X.B. Jing, Y.N. Xia, F.Z. Chen, et al., Preparation of superhydrophobic glass surface with high adhesion, COLLOID SURFACE A, 633,2022, 127861 19. X.B. Jing, Z.H. Zheng, J. Xu, et al., Stability analysis in micro milling based on p leader multifractal method, J MANUF PROCESS, 77,2022, 495–507 20. X.B. Jing, B.W. Song, J. Xu, et al., Mathematical modeling and experimental verification of surface roughness in micro-end-milling, INT J ADV MANUF TECH. June 2022, 20(1) 21. X.B. Jing, Q.L. Zhai, D. Zhang, et al., Wettability and frictional properties on zirconia surfaces irradiated by femtosecond laser, COLLOID SURFACE A, 654(1): 2022,130198 22.Y.N. Xia, X.B. Jing*, D.W. Zhang, et al., A comparative study of direct laser ablation and laser-induced plasma-assisted ablation on glass surface, INFRARED PHYS TECHN, 115, 2021, 103737 23. X.B. Jing, R.Y. Lv, B.W. Song, et al., A novel run-out model based on spatial tool position for micro-milling force prediction, J MANUF PROCESS, 68, 2021, 739–749 24. X.B. Jing, Y.N. Xia, S.X. Zheng, et al.，Effect of surface modification on wettability and tribology by laser texturing in Al2O3, APPL OPTICS, 60(15) 2021. 25. X.B. Jing, Q.L. Zhai, S.X. Zheng, et al., Surface modification and effects on tribology by laser texturing in Al2O3, APPL OPTICS, 60(31) 2021. 26.S.X. Zheng, J. Li, X.B. Jing∗, et al., Parameterized design and fabrication of porous bone scaffolds for the repair of cranial defects, MED ENG PHYS, 81, 2020, 39–46. 27.Z.H. Pu, D.W. Zhang, X.B. Jing*, et al., Fabrication of super-hydrophobic and highly oleophobic Ti-6Al-4 V surfaces by a hybrid method, MATER RES BULL, 130,2020, 110915 28. X.B. Jing, R.Y. Lv, Y. Chen, et al., Modelling and experimental analysis of the effects of run out, minimum chip thickness and elastic recovery on the cutting force in micro-end-milling, INT J MECH SCI, 176,2020,105540. 29. X.B. Jing, Z.H. Pu, S.X. Zheng∗, et al., Nanosecond laser induced microstructure features and effects thereof on the wettability in zirconia, CERAM INT, 46, 2020, 24173–24182. 30.Z.H. Pu, X.B. Jing*, C.J. Yang, et al., Wettability modification of zirconia by laser surface texturing and silanization, Int J Appl Ceram Technol. 2020;00:1–11. 31.C.J. Yang, X.B. Jing*, F.J. Wang, et al., Fabrication of controllable wettability of crystalline silicon surfaces by laser surface texturing and silanization, APPL SURF SC, 497, 2019, 143805. 32.Y.J. Yuan, X.B. Jing*, Kornel F. Ehmann, et al., Surface roughness modeling in micro end-milling, INT J ADV MANUF TECH, 95, 2018, 1655-1664. 33.Y.D. Zhou, Y.L. Tian, X.B. Jing*, et al., Surface topography modeling and roughness extraction in helical milling operation, INT J ADV MANUF TECH, 95, 2018, 4561–4571 34.Y.J. Yuan, X.B. Jing*, Kornel F. Ehmann, et al., Modeling of cutting forces in micro end-milling, J MANUF PROCESS, 31, January 2018, 844-858 35.Y.J. Yuan, X.B. Jing*, H.Z. Li, et al., Chatter detection based on wavelet coherence functions in micro-end-milling processes, P I MECH ENG B-J ENG, October 2019 233(1):095440541880821 36. X.B. Jing, Y.L. Tian, Y.J. Yuan, An experimental investigation of micro-milling brass considering run out by carbide micro-end mills, P I MECH ENG C- J MEC, 232(20):2018,095440621774293 37. X.B. Jing, Y.L. Tian, Y.J. Yuan, F.J. Wang, A runout measuring method using modeling and simulation, International Journal of AMT 91, 2017,4191–4201（Feb） 38.Y.D. Zhou, Y.L. Tian, X.B. Jing*, Kornel F. Ehmann, A novel instantaneous uncut chip thickness model for mechanistic cutting force model in micro-end-milling, INT J ADV MANUF TECH, 93, 2017, 2305-2319.