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冯峰

副教授硕士生导师

电话: 13510591052

邮箱:

地址: 能源与环境大楼106室

  • 个人简历
  • 教学
  • 研究领域
  • 研究成果
  • 奖励荣誉
  • 概况

    主要从事智能制造与精密加工技术研究

    教育经历

    20029~20067月,清华大学物理系,理学学士

    20069~20121月,清华大学物理系,理学博士


    工作经历

    20123~20144月,清华大学深圳研究生院,博士后

    20146~201911月,清华大学深圳研究生院,讲师

    201912~今,清华大学深圳国际研究生院,副教授


    学术兼职

    中国机械工程学会,高级会员;

    中国机械工程学会表面工程分会,委员;

    中国复合材料学会,高级会员;

    Fractal and Fractional(中科院小类一区)期刊客座编辑;

    International Journal of Extreme ManufacturingAerospace Science and TechnologyIEEE Transactions on Industrial ElectronicsJournal of Intelligent ManufacturingApplied Physics LettersApplied Surface ScienceIEEE Transactions on Power ElectronicsSuperconductor Science and Technology等期刊审稿人。



    社会兼职

  • 教学课程


    主讲深圳国际研究生院的《制造过程数值模拟技术》、《制造技术(1)》、《智能制造技术基础》等课程。



    研究生指导

  • 研究领域

    主要从事智能制造与精密加工技术研究,具体涉及超声加工装备与工艺、复合材料制造技术、结构件应力形变控制、制造装备数字孪生等方向,以第一或通讯作者发表SCI论文60余篇(ESI高被引用论文1篇、期刊封面论文1篇、期刊亮点论文2篇),以第一发明人获得国家发明专利授权20余项、美国PCT专利授权1项。


    主要项目

    作为负责人主持国家科技重大专项课题、国家自然科学基金等20余项科研项目。


  • 代表性论文

    Main publications (2021-2025):

    [1] W.M. Zhou, P.F. Feng, W. Ji, Z.Y. Wang, Y. Ma, E.L. Jiang, H.T. Zha, Z.P. Cai, F. Feng*, Multiscale analysis on the wear process of cemented carbide tools during titanium alloy machining. Friction, 13 (2025) 9440921. 

    [2] J. Xu, P.F. Feng, Y.H. Gong, J.J. Wang, H.T. Yang, F. Feng*, Exploiting damage for inhibiting damage: A counterintuitive reasoning out of in-situ orthogonal cutting for brittle fiber composite. Journal of Materials Processing Technology, 343 (2025) 118961,

    [3] Y.Y. Liang, P.F. Feng, Z.Y. Song, S.W. Zhu, T. Wang, J. Xu, Q.Z. Yue, E.L. Jiang, Y. Ma, G. Song, X.M. Yuan, F. Feng*, Wear mechanisms of straight blade tool by dual-periodic impact platform, International Journal of Mechanical Sciences, 288 (2025) 110031.

    [4] N.S. Kang, H.W. Ma, F. Feng*, Q.H. Wu, J.J. Wang, K. Zhou, C.M. Wu, P.F. Feng, A multi-sensor tool wear monitoring method based on mechanism-data fusion for industrial scenario, Mechanical Systems and Signal Processing, 234 (2025) 112834.

    [5] Y. Zhang, P.F. Feng, Q. Li, J. Xu, Y. Ma, F. Feng*, On the evaluating surface quality of Nomex honeycomb composites by using surface roughness, Surfaces and Interfaces, 60 (2025) 106076.

    [6] J.Y. Nan, J. Xu, P.F. Feng, F. Feng*, Efficient modeling of liquid splashing via graph neural networks with adaptive filter and aggregator fusion. International Journal of Numerical Methods for Heat & Fluid Flow, 34 (2024) 2513-2538.

    [7] J. Xu, B. Li, P.F. Feng, Q. Wang, F. Feng*, A novel method for AFRPs burrs removal: Principle of mechanochemo-induced fiber fracture. Chinese Journal of Aeronautics, 37 (2024) 522-538.

    [8] E.L. Jiang, Q.Z. Yue, J. Xu, C.R. Fan, G. Song, X.M. Yuan, Y. Ma, X.L. Yu, P.L. Yang, P.F. Feng, F. Feng*, A Wear Testing Method of Straight Blade Tools for Nomex Honeycomb Composites Machining: Wear, 546-547 (2024) 205325. 

    [9] F. Feng, X.G. Song, Y. Zhang, Z. Zhu, H. Wu, P.F. Feng, A Rapid Method to Quantify High-Frequency-Dominant Signals Based on Fixed-Interval Fractal Dimension, Fractal and Fractional, 8 (2024) 455.

    [10] X.M. Yuan, C.R. Fan, J. Xu, W.J. Cao*, W.C. Zhou, E.L. Jiang, Y. Ma, C. Xu, P.F. Feng, F. Feng*, Dominating influence of cutting-edge lead angles on arc-trajectory machining of Nomex® honeycomb composites by using a straight blade cutter, Engineering Science and Technology, an International Journal, 49 (2024) 101601.

    [11] G. Zhou, K. Zhou, J. Zhang, M. Yuan, X. Wang, P. Feng, M. Zhang*, F. Feng*, Digital modeling-driven chatter suppression for thin-walled part manufacturing, Journal of Intelligent Manufacturing, 35 (2024) 289-305.

    [12] X.M. Yuan, B. Li, F. Feng*, J. Xu, G. Song, Y.Y. Liang, Y. Ma, C. Xu, F.J. Wang, P.F. Feng, False Boss Connection for Precision Machining of Composites with Soft and Brittle Characteristics, Journal of Composites Science, 8 (2024) 292.

    [13] J. Xu, C.X. Wang, P.F. Feng, E.L. Jiang, F. Feng*, Meso-scale cracks initiation of Nomex honeycomb composites in orthogonal cutting with a straight blade cutter, Composites Science and Technology, 233 (2023) 109914.

    [14] G. Zhou, M. Yuan, F. Feng*, Z.M. Han, X.G. Song, X.H. Wang, P.F. Feng, M. Zhang*, A new algorithm for chatter quantification and milling instability classification based on surface analysis, Mechanical Systems and Signal Processing, 204 (2023) 110816.

    [15] J. Xu, Q.Z. Yue, H.T. Zha*, X.M. Yuan, X.K. Cai, C. Xu, Y. Ma, P.F. Feng, F. Feng*, Wear reduction by toughness enhancement of disc tool in Nomex honeycomb composites machining, Tribology International, 185 (2023) 108475.

    [16] W.M. Zhou, F. Yu, J.F. Zhang, K.H. Huang, Z.P. Xu, X.P. Liu, Y. Ma, P.F. Feng, F. Feng*, An adaptive clamp system for deformation control of aerospace thin-walled parts, Journal of Manufacturing Processes, 107 (2023) 115-125.

    [17] J. Xu, K.X. Zhang, H.T. Zha*, J.L. Liu, X.M. Yuan, X.K. Cai, C. Xu, Y. Ma, P.F. Feng, F. Feng*, Surface integrity of Nomex honeycomb composites after ultrasonic vibration machining by using disc cutters, Journal of Manufacturing Processes, 102 (2023) 1010-1022.

    [18] F. Feng, Z.R. Zhao, Z.B. Wang, B. Li, X.X. Lin, J.F. Zhang, P.F. Feng, X.Y. Zhang*, A calculation method for residual stress of cold expanded hole based on measured springback, Measurement, 218 (2023) 113262.

    [19] L.H. Zhang, P.F. Feng, J. Xu, Y. Li, W. Gao, G.Q. Liang, F. Feng*, A piecewise kinetic model consistent with curing cycle of epoxy/amine composite, Journal of Thermal Analysis and Calorimetry, 148 (2023) 12781-12793.

    [20] G.C. Han, Z.J. Ye, J. Xu, Y. Ma, C. Xu, X.Q. Zhao, L.D. Yu, P.F. Feng, F. Feng*, Investigation on cutting forces and tool wear in high-speed milling of Ti-6Al-4V assisted by longitudinal torsional ultrasonic vibrations, The International Journal of Advanced Manufacturing Technology, 129 (2023) 783-799.

    [21] X.M. Yuan, K.X. Zhang, H.T. Zha*, J. Xu, G. Song, W.J. Cao, P.F. Feng, F. Feng*, Enabling Thin-Edged Part Machining of Nomex Honeycomb Composites via Optimizing Variable Angle of Disc Cutters, Materials, 16 (2023) 5611.

    [22] G.Y. Huang, J. Bai, F. Feng*, L. Zeng, P.F. Feng, X.H. Li*, A Hybrid Strategy for Profile Measurement of Micro Gear Teeth, Micromachines, 14 (2023) 1729.

    [23] Z.W. Li, J.J. Wang, M. Yuan, Z.Y. Wang, P.F. Feng, F. Feng*, An indicator to quantify the complexity of signals and surfaces based on scaling behaviors transcending fractal, Chaos, Solitons & Fractals, 163 (2022) 112556.

    [24] W.M. Zhou, Y.T. Cao, H.L. Zhao, Z.W. Li, P.F. Feng, F. Feng*, Fractal Analysis on Surface Topography of Thin Films: A Review, Fractal and Fractional, 6 (2022) 135. (ESI高被引用论文,期刊年度最佳论文)

    [25] F. Feng, K.X. Zhang, X.H. Li*, Y.S. Xia, M. Yuan, P.F. Feng*, Scaling Region of Weierstrass-Mandelbrot Function: Improvement Strategies for Fractal Ideality and Signal Simulation, Fractal and Fractional, 6 (2022) 542.

    [26] F. Feng, H.F. Hong, X. Gao*, T. Ren, Y. Ma, P.F. Feng*, Effectiveness of Oxygen during Sintering of Silver Thin Films Derived by Nanoparticle Ink, Nanomaterials, 12 (2022) 1908.

    [27] F. Feng, M. Yuan, Y.S. Xia, H.M. Xu, P.F. Feng*, X.H. Li*, Roughness Scaling Extraction Accelerated by Dichotomy-Binary Strategy and Its Application to Milling Vibration Signal, Mathematics, 10 (2022) 1105.

    [28] X.Y. Mei, H.M. Xu, P.F. Feng, M. Yuan, C. Xu, Y. Ma, F. Feng*, Online chatter monitor system based on rapid detection method and wireless communication, The International Journal of Advanced Manufacturing Technology, 122 (2022) 1321-1337.

    [29] J. Xu, P.F. Feng, F. Feng*, H.T. Zha*, G.Q. Liang, Subsurface damage and burr improvements of Aramid Fiber Reinforced Plastics by using longitudinal-torsional ultrasonic vibration milling. Journal of Materials Processing Technology, 297 (2021) 117265.

    [30] Z.W. Li, X. Qian, F. Feng*, T.M. Qu, Y.S. Xia, W.M. Zhou, A continuous variation of roughness scaling characteristics across fractal and non-fractal profiles. Fractals-Complex Geometry Patterns and Scaling in Nature and Society, 29 (2021) 2150109.

    [31] G. Zhou, X.H. Wang, F. Feng*, P.F. Feng, M. Zhang*, Calculation of fractal dimension based on artificial neural network and its application for machined surfaces. Fractals-Complex Geometry Patterns and Scaling in Nature and Society, 29 (2021) 2150129.

    [32] Z.R. Yang, T.M. Qu, F. Feng*, L.L. Wang, P.F. Feng, Wrinkling surface of mono-layered thin film derived by using trifluoroacetate solution, Journal of Sol-Gel Science and Technology, 99 (2021) 13-24.

    [33] W.M. Zhou, J.C. Lin, F. Feng*, Y. Ma, H.T. Zha, W. Ji, E.L. Jiang, Z.P. Cai, P.F. Feng*, Performance improvement of carbide cutting tool for Ti6Al4V alloys using electromagnetic treatment, The International Journal of Advanced Manufacturing Technology, 113 (2021) 1547–1560.

    [34] Z.W. Li, D.W. Yu, J. Cui, P.F. Feng, F. Feng*, Influences of Brass Surface Morphology on Leidenfrost Effect during Liquid Nitrogen Cooling, Applied Sciences, 11 (2021) 10323.

    [35] Z.W. Li, J. Li, Y.S. Xia, P.F. Feng, F. Feng*, Variation Trends of Fractal Dimension in Epileptic EEG Signals, Algorithms, 14 (2021) 316.

     


    代表性著作

    主要专利成果

    其他成果

  • 荣誉奖项

    [1] 指导硕士生卢弘愿(2014级)获2017年北京市优秀毕业生;

    [2] 指导硕士生符其树(2015级)获2018年北京市优秀毕业生;

    [3] 指导硕士生刘彬彬(2016级)获2018年国家奖学金、2019年清华大学优秀硕士学位论文;

    [4] 指导硕士生黄俊龙(2017级)获2019年国家奖学金;

    [5] 指导硕士生周文萌(2018级)获2020年国家奖学金、2021年清华大学优秀硕士学位论文;

    [6] 参与项目“实用化高温超导磁体研制的关键技术及应用”(排名5/10)获2021年度中国电工技术学会科学技术二等奖;

    [7] 指导硕士生袁梦(2020级)获2022年国家奖学金、2023年北京市优秀毕业生;

    [8] 指导硕士生张可欣(2021级)获2023年国家奖学金、2024年清华大学优秀硕士学位论文;

    [9] 指导硕士生乐祺中(2021级)获2024年清华大学优秀毕业生、2024年清华大学优秀硕士学位论文;

    [10] 负责项目“用于极度锋利切削刀具的监控设备”(排名1/7)获2024年日内瓦国际发明展银奖;

    [11] 指导硕士生南锦瑶(2022级)获2025年清华大学优秀毕业生;

    [12] 指导硕士生康能生(2022级)获2025年清华大学优秀硕士学位论文;

    [13] 指导硕士生詹寒慧(2022级)获2025年北京市优秀毕业生。


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