个人简介
郑路,纽卡斯尔大学博士,在英学习期间主要参与英国EPSRC和Northern Accelerator资助项目。研究方向为精密制造和特种加工,具体包括振动辅助加工设备设计与构建,加工机理研究和加工表面相关应用(表面改性,微流控芯片制造等),从科学理论和工程应用上把握了领域的前沿。累计发表学术论文14篇,累计被引用次数超300次,并在世界顶级学术出版商Wiley以第一作者身份出版学术专著一本《Vibration Assisted Machining: Theory, Modelling and Applications》。
教育经历
2016.09.30-2020.11.12,哲学博士学位,英国纽卡斯尔大学,机械及系统工程
2015.09.30-2016.10.12,理学硕士学位,英国纽卡斯尔大学,机械工程
2010.09.01-2014.07.10,工学学士学位,沈阳航空航天大学,机械设计制造及其自动化
工作经历
2021.02.26,中国农业大学工学院
2014.07.23-2015.05.19,北京佩特来电器有限公司
近期论文
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Enhancement mechanism of fish scale surface texture on flow switching and mixing efficiency in microfluidic chips Langmuir SCI 2023 Lu Zheng 1
Vibration Assisted Machining: Theory, Modelling and Applications Wiley 英文著作 2021 Lu Zheng 1
基于宏微结合的田间作业机器人路径规划 农业机械学报 EI 2023 郑路 1
Investigation on the Dynamics of a Flexible Multi-Body System of a Three-Cylinder Gasoline Engine Crankshaft Processes SCI 2023 通信作者
Design, analysis and control of a 2D vibration device for vibration assisted micro milling IEEE/ASME Transactions on Mechatronics SCI Q1 2020 Lu Zheng 1
Review of vibration devices for vibration-assisted machining The International Journal of Advanced Manufacturing Technology SCI Q2 2020 Lu Zheng 1
Investigation on tool wear suppression mechanism in non-resonant vibration assisted micro milling Micromachines SCI Q2 2020 Lu Zheng 1
Modulation of surface wettability by vibration assisted milling Precision Engineering SCI Q2 2019 Lu Zheng 1
Modelling and experimental investigation on textured surface generation in vibration-assisted micro-milling Journal of Materials Processing Technology SCI Q1 2019 2
Finite element simulation and experimental investigation on cutting mechanism in vibration-assisted micro-milling The International Journal of Advanced Manufacturing Technology SCI Q2 2019 2
Wettability and liquid flow control in microfluidic channels by vibration assisted micro milling 19th International Conference of the European Society for Precision Engineering and Nanotechnology, EUSPEN 2019 EI 2019 Lu Zheng 1
Experimental investigation on burr formation in vibration-assisted micro-milling of Ti-6Al-4V. Proc. Inst. Mech. Eng. Part C J. Mech. Eng. Sci. SCI Q3 2018 Lu Zheng 1
Surface texture formation by non-resonant vibration assisted micro milling. Journal of Micromechanics and Microengineering SCI Q3 2017 2