基本信息

北京工业大学机械与能源工程学院，特聘教授，博士生导师，先进制造与智能技术研究团队负责人。教育部“长江学者”特聘教授、机械工业科技创新领军人才、中国产学研合作创新奖获得者，机械工业重型机床数字化设计与测试重点实验室主任、数控装备可靠性教育部重点实验室副主任、吉林省高端数控装备先进制造与智能技术重点实验室主任等。主持国家及省部级项目40余项，发表高水平论文200余篇，授权国家发明专利70项，参与制定国家标准7项。获得北京市科技进步一等奖等省部级奖励6项。作为核心专家承担了国家科技重大专项实施方案编制、专项总结评估、工业强基工程研究、技术路线图编制等多项国家重大战略任务。

教育背景

1991.09-1995.07：哈尔滨科技大学 工学学士

1995.09-1998.03：东 北 大 学 工学硕士

1998.03-2001.03：东 北 大 学 工学博士

工作经历

2001.04-2002.10：深圳华为技术有限公司 项目经理

2002.10-2006.12：北京工业大学 讲 师

2006.12-2013.06：北京工业大学 副 教 授

2013.06-2021.04：北京工业大学 教 授

2014.05-2020.01：北京工业大学 机电学院副院长

2020.01-2021.04：北京工业大学 材制学部副主任

2021.04-至今： 吉 林大学 教 授

2021.04-至今： 北京工业大学 特聘教授

研究领域

高端数控机床与智能制造、数控装备可靠性

部分科研项目

1.科技部7***专项，主持，1000万，高精度龙门多主轴头五面加工中心研制及关键技术攻关，2022/01-2024/12；

2.工信部高质量发展专项，主持，210万，面向机床行业大中型数控机床关键加工装备项目，2021/07-2023/06；

3.工信部高质量发展专项，主持，225万，2022年高效高精度磨齿机项目，2022/07-2025/06；

4.工信部高质量发展专项，主持，210万，2022年大中型五轴卧式铣车复合加工中心项目，2022/07-2025/06；

5.吉林省科技发展计划项目，支持，60万，机器人关节大扭矩高精度谐波减速器关键技术，2022/07-2025/06；

6.横向课题（长春禹衡光学有限公司），主持，100万，光栅传感器可靠性设计技术，2022/09-2023/12；

7.横向课题（长春禹衡光学有限公司），主持，100万，光栅传感器可靠性测试与评估，2022/09-2023/12；

8.北京市科委项目，主持，180万，塑料模具制造创新服务平台建设，2020/04-2022/02；

9.国家科技重大专项，主持，186.09万，摆角铣头数字化建模、分析、测试与加工仿真技，2019/02-2020/12；

10.国家自然科学基金，主持，72万，面向重型数控机床精度保持的栓接结构松动机理及优化策略研究，2019/11-2023/12；

11.国家科技重大专项，主持，219.25万，机床关键箱体类零件精加工性能提升技术研究，2019/01-2020/12。

部分科研获奖

1.北京市科学技术奖一等奖（高精超大尺度重型车铣复合机床精准制造关键技术，2018制-1-001-01，2018.11）

2.中国机械工业科学技术奖一等奖（面向新能源等行业的数控超重型桥式龙门五轴联动车铣复合系列机床，R1601023-03，2016.10）

3.北京市科学技术奖二等奖（重型龙门数控机床大型结合面关键技术研究与应用，2013制-2-003-03，2014.01）

4.中国机械工业科学技术奖二等奖（高档数控机床结合面特性测试、分析关键技术及应用，R1909043-07，2019.10）

5.北京市科学技术奖二等奖（数控机床结合面特性及整机性能分析关键技术与应用，2019-J05-2-04-R10，2020.08）

6.中国航空工业集团公司科技成果奖二等奖（重点型号飞机发动机试飞试验要求研究，2015499J-D03，2015.12）

部分科研论文

[1]ZHU Y H, CHENG J F, LIU Z F*, et al. Production logistics digital twins: Research profiling, application, challenges and opportunities [J]. Robotics and Computer–Integrated Manufacturing, 2023, 84: 102592.

[2]CHENG Y H, SU Z, ZHOU J Y, LIU Z F*, et al. Calculation of the Maximum Temperature of Diester-Based Magnetic Fluid Layers in High-Speed Seals [J]. Nanomaterials, 2023, 13(6).

[3]NIU P, CHENG Q, ZHANG T, YANG CB, ZHANG ZL, LIU Z F*. Hyperstatic mechanics analysis of guideway assembly and motion errors prediction method under thread friction coefficient uncertainties [J]. Tribology International, 2023, 180.

[4]ZHENG M P, LIU Z F, WAHAB M A, et al. Degradation and failure analysis of bolted joints under transverse loading [J]. Tribology International, 2023, 179.

[5]CHEN J Z, LIU Z F, XU J J, et al. A Novel Disassembly Strategy of Hexagonal Screws Based on Robot Vision and Robot-Tool Cooperated Motion [J]. Applied Sciences-Basel, 2023, 13(1).

[6]PEI Y H, LIU Z F, XU J J, et al. Grouping Preventive Maintenance Strategy of Flexible Manufacturing Systems and Its Optimization Based on Reliability and Cost [J]. Machines, 2023, 11(1).

[7]ZHENG M P, LI Y, LIU Z F*, et al. A multi-bolt tightening method based on elastic interaction coefficient and gasket creep relaxation [J], Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2022, 236(17): 9639-9647.

[8]LIU Z F, YANG H, HUN L M, et al. Numerical and experimental analysis of ball screw accuracy reliability with time delay expansion under non-constant operating conditions [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2023, 237(6-7): 937-950.

[9]CAI H Y, ZHANG C X, LI F P, LIU MM, ZHANG T, CHU HY, LIU Z F*. Study on the microcosmic superlubricity mechanism of PVPA affected by metal cations [J]. Friction, 2023, 11(7): 1150-1164.

[10]ZUO W L, LIU Z F, ZHAO Y S, et al. Research on the tightening strategy of bolted flange for contact stiffness of joint surface [J]. Structural Engineering and Mechanics, 2022, 83(3): 341-351.

[11]LIU M M, ZHANG C X, WANG L H, CHENG YH, LI Y, BAI LP, LIU Z F*. Regulation Mechanism of Trivalent Cations on Friction Coefficient of a Poly(Vinylphosphonic Acid) (PVPA) Superlubricity System [J]. Lubricants, 2022, 10(8).

[12]LIU M M, WANG L H, ZHANG C X, CHENG YH, YANG CB, LIU Z F*. Regulation Mechanism for Friction Coefficient of Poly(vinylphosphoric acid) (PVPA) Superlubricity System Based on Ionic Properties [J]. Nanomaterials, 2022, 12(13).

[13]QI B B, CHENG Q, LIU Z F*, et al. Numerical analysis and experimental research on the accuracy decay of a ball screw with geometric errors under non-constant operating conditions [J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2022, 236(17): 9773-9787.

[14]ZHANG C X, CHENG J M, LIU M M, WANG F, ZHENG YQ, CHENG YH, LIU Z F*. Relationship between Viscosity and Resistance of Oil Film: A New Way to Investigate the Controllable Friction between Charged Interfaces Lubricated by Ionic Lubricating Oil [J]. Advanced Materials Interfaces, 2022, 9(14).

[15]ZHANG Y Z, ZHANG C X, YAN J, YANG CB, LIU Z F*. Rapid construction method of equipment model for discrete manufacturing digital twin workshop system [J]. Robotics and Computer-Integrated Manufacturing, 2022, 75.

[16]XU J J, LIU K, PEI Y H, YANG CB, CHENG YH, LIU Z F*. A Noncontact Control Strategy for Circular Peg-in-Hole Assembly Guided by the 6-DOF Robot Based on Hybrid Vision [J]. IEEE Transactions on Instrumentation and Measurement, 2022, 71.

[17]LIU Z F, ZHANG Y Z, YANG C B, et al. Generalized distributed four-domain digital twin system for intelligent manufacturing [J]. Journal of Central South University, 2022, 29(1): 209-225.

[18]LIU Z F, WANG Y Z, DONG X M, et al. A novel model for evaluating preload based on spectral problem in system with double-bolted connections [J]. Applied Mathematical Modelling, 2022, 102: 21-34.

[19]LIU Z F, LIU M M, ZHANG C X, et al. Applications of sum-frequency generation vibrational spectroscopy in friction interface [J]. Friction, 2022, 10(2): 179-99.

[20]JIANG K, LIU Z F, TIAN Y, et al. An estimation method of fractal parameters on rough surfaces based on the exact spectral moment using artificial neural network [J]. Chaos Solitions & Fractals, 2022, 161.

[21]JIANG K, LIU Z F, WANG Y D, et al. Effects of Different Friction Coefficients on Input Torque Distribution in the Bolt Tightening Process Based on the Energy Method [J]. Journal of Tribology-Transactions of the Asme, 2022, 144(7).

[22]JIANG K, LIU Z F, YANG C B, et al. Effects of the joint surface considering asperity interaction on the bolted joint performance in the bolt tightening process [J]. Tribology Internatiuonal, 2022, 167.

[23]LIU M M, LIU Z F, CHEN J M, et al. Synergistic Regulation Mechanism of Inorganic Thermal Oxidation Coating and Poly (Vinylphosphonic Acid) (PVPA) Coating for High Load Bearing Superlubricity [J]. Applied Sciences-Basel, 2021, 11(1).

[24]CHENG Q, QI B B, REN W D, LIU Z F*. A new exponential wear model to analyze precision retention of guideway based on macro-micro multiscale method [J]. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 2021, 235(8): 1499-1513.

[25]LIU Z F, ZHENG M P, GUO J F, et al. Experimental study on performance characterization of bolted joint under transverse loading [J]. Measurement, 2021, 182.

[26]LIU Z F, WANG B E, LI Y, et al. Analysis of self-loosening behavior of high strength bolts based on accurate thread modeling [J]. Engineering Failure Analysis, 2021, 127.

[27]LIU Z F, YAN J, CHENG Q, et al. Adaptive selection multi-objective optimization method for hybrid flow shop green scheduling under finite variable parameter constraints: case study [J]. International Journal of Production Research, 2021, 60(12): 3844-3862.

[28]CHENG Q, QI B B, LIU Z F*, et al. Positioning accuracy degradation and lifetime prediction of the ball screw considering time-varying working conditions and feed modes [J]. Proceedings of the Institution of Mechanical Engineers Part B-Journal of Engineering Manufacture, 2021, 235(6-7): 943-57.

[29]LIU Z F, CHEN W, ZHANG C X, et al. Intelligent scheduling of a feature-process-machine tool supernetwork based on digital twin workshop [J]. Journal of Manufacturing Systems, 2021, 58: 157-67.

[30]YAN J, LIU Z F, ZHANG C X, et al. Research on flexible job shop scheduling under finite transportation conditions for digital twin workshop [J]. Robotics and Computer-Integrated Manufacturing, 2021, 72.