个人简介

方正隆，教授，博士生导师，国家级青年人才、德国洪堡资深学者，日本精密工学学会沼田奖获得者。2017年毕业于日本东京大学机械系，获工学博士学位。回国工作前在日本东京大学机械系从事高性能加工技术研究工作。目前主要研究方向包括齿轮高速创成切削/磨削、增减材复合加工、表面完整性建模与优化等。主持国家自然科学基金优秀青年基金（海外）、德国洪堡基金会资深学者、科技部国际合作司等项目。代表性研究成果以第一作者兼/或通讯作者发表在 CIRP Annals、Int. J. Mach. Tools Manuf.、Int. J. Fatigue、Mech. Syst. Sig. Process.等高水平期刊上。研究成果获多项学会及行业奖励，并成功应用于多家国内外装备制造企业。

基本信息

办公地点：北京市航空航天大学沙河校区科研三号楼527

电子邮件：fangzhl@buaa.edu.cn

教育背景

日本东京大学      机械工程学院      博士      2014-2017

华中科技大学      机械科学与工程学院   硕士      2009-2012

华中科技大学      机械科学与工程学院   学士      2005-2009

工作经历

北京航空航天大学    机械工程及自动化学院   副教授/教授     2023-至今

日本东京大学      机械工程         博后/助教      2014-2022

研究方向

1、高性能制造：齿轮高速创成加工、增减材复合加工、表面完整性建模与优化等

2、智能制造：表面创成微观形貌仿真、加工过程虚拟建模等

讲授课程

1、智能制造技术与装备

代表性科研项目

1、国家级人才计划，高性能车齿技术，2023-2026，主持

2、德国洪堡基金会，资深学者项目，2024-2025，主持

3、国家级外专引智，高强度钢增减协同切削技术，2025-2026，主持

4、通用技术集团产学研合作，高性能齿轮加工技术，2025-2027，主持

代表性学术论文（*为通讯作者）

1.Bai, T., Wang, C., Yu, G., Kolmanovskyi, M., Saelzer, J., Kizaki, T., Biermann, D., Fang, Z.* (2025). Towards understanding the surface strengthening mechanism in negative rake angle cutting of additively manufactured stainless steel, CIRP Annals 74, 77–80.

2.Wang, C., Fang, Z.*, Kizaki, T.*, & Sugita, N. (2025). Towards understanding the machining effect on the additively manufactured stainless steel for various scanning directions: Texture evolution and mechanical properties. Materials & Design, 252, 113776.

3.Shu L., Fan J., Liu J., Lin L., Wei Y., Z. Fang*, (2025) Towards understanding the time-dependent microstructural evolution mechanism of GCr15 bearing in rolling contact fatigue, International Journal of Fatigue, 199, 109078.

4.Ye, H., Chen, Z., Si, C., & Fang, Z*. (2024). A novel shape-curved tool design aiming at high-quality blisk root-fillet surface polishing. Journal of Manufacturing Processes, 127, 304–313.

5.Chen, S., Bai, T., Zhang, Y., Fang, Z.*, & Chen, Z*. (2024). Geometric error suppression of six-axis machine tool for blisk full-shape surface grinding via constrained error sensitivity analysis. Precision Engineering, 88, 1–14.

6.Ren, Z., Fang, Z.*, Arakane, T., Kizaki, T., Feng, Y., Nagata, T., Komatsu, Y., & Sugita, N. (2024). Chipping analysis and prediction in gear skiving process using multi-infeed strategy. Mechanical Systems and Signal Processing, 211, 111169.

7.Fang, Z.*, Ren, Z., Schulze, V., Feng, Y., Nagata, T., Furukawa, S., Tomiyama, K., & Kizaki, T. (2023). Understanding the gear surface enhancement by hard-hobbing via ferritic-martensitic grain analysis. CIRP Annals, 72(1), 505–508.

8.Shu, L., Fang, Z., Wang, C., Katsuma, T., Zhang, B., & Sugita, N*. (2023). Effect of single-grit wear on surface integrity of hardened stainless steel in dry grinding. CIRP Annals, 72(1), 259–262.

9.Ren, Z., Fang, Z.*, Kizaki, T., Feng, Y., Nagata, T., Komatsu, Y., & Sugita, N. (2022). Understanding local cutting features affecting surface integrity of gear flank in gear skiving. International Journal of Machine Tools and Manufacture, 172, 103818.

10.Fang, Z.*, & Sugita, N. (2022). Towards understanding and controlling of the surface texture pattern in 5-axis ball-end milling using fast texture simulation. Precision Engineering, 74, 80–91.

11.Fang, Z.*, Ren, Z., Kizaki, T., & Sugita, N. (2022). Interference-based technique for designing cutter flank using multiple radial infeed in gear skiving. Mechanism and Machine Theory, 169, 104678.

12.Fang, Z.*, Ren, Z., Shu, L., Kizaki, T., & Sugita, N. (2022). A parametric modeling for fast radial infeed planning process in gear skiving. Mechanism and Machine Theory, 174, 104909.

13.Fang, Z.*, Ren, Z., Kizaki, T., Feng, Y., Nagata, T., Tomiyama, K., & Sugita, N. (2022). Towards understanding subsurface integrity alteration of gear fillet formed by gear skiving method. Materials & Design, 218, 110708.

14.Fang, Z., Yang, M., & Nakao, M.* (2022). Strain-induced magnetic degradation in shearing FeSiB nanocrystalline thin foils analyzed by magneto-optical Kerr effect. CIRP Annals, 71(1), 493–496.

15.Fang, Z.*, Nagato, K., Liu, S., Sugita, N., & Nakao, M. (2021). Investigation into surface integrity and magnetic property of FeSiB metallic glass in two-dimensional cutting. Journal of Manufacturing Processes, 64, 1098–1104.

16.Fang, Z.*, Nagato, K., Sugita, N., & Nakao, M. (2021). Grinding performance and delamination analysis of FeSiB metallic glass laminate. Journal of Advanced Mechanical Design, Systems, and Manufacturing, 15(4), JAMDSM0041–JAMDSM0041.

17.Fang, Z.*, Ren, Z., Kizaki, T., Feng, Y., Kugo, J., Komatsu, Y., & Sugita, N. (2021). Construction of uncut chip geometry in gear skiving using level contours. Precision Engineering, 73, 93–103.

18.Fang, Z.*, Nagato, K., Shimura, T., Murakami, M., & Nakao, M. (2020). Micro-level Clearance Punching on NGO Electrical Steel. Journal of Manufacturing Science and Engineering, 142(8), 084501.

19.Fang, Z.*, & Obikawa, T. (2020). Influence of cutting fluid flow on tool wear in high-pressure coolant turning using a novel internally cooled insert. Journal of Manufacturing Processes, 56, 1114–1125.

20.Fang, Z., & Nakao, M.* (2020). Local magnetic deterioration on work-hardening layer of FeSiB metallic glass by milling. CIRP Annals, 69(1), 501–504.

21.Ren, Z., Fang, Z.*, Arakane, T., Kizaki, T., Nishikawa, T., Feng, Y., Kugo, J. K., Nabata, E., & Sugita, N. (2020). Parametric modeling of uncut chip geometry for predicting crater wear in gear skiving. Journal of Materials Processing Technology, 290, 116973.

22.Fang, Z.*, & Obikawa, T. (2017). Turning of Inconel 718 using inserts with cooling channels under high pressure jet coolant assistance. Journal of Materials Processing Technology, 247, 19–28.

23.Fang, Z.*, & Obikawa, T. (2017). Cooling performance of micro-texture at the tool flank face under high pressure jet coolant assistance. Precision Engineering, 49, 41–51.

学术与社会服务

1、日本精密工学学会、国际纳米制造学会（ISNM）等国际学术组织会员、日本东京大学客座研究员；

2、Mechanism and Machine Theory、Int. J. Mach. Tools Manuf.、Mechanical Systems and Signal Processing、Soft Matter等国际期刊的审稿人。

Zhenglong Fang, Ph.D.

Beihang University

School of Mechanical Engineering and Automation

fangzhl@buaa.edu.cn

Research Interests

Function-oriented cutting/grinding, intelligent manufacturing

Education

The University of Tokyo, Tokyo, Japan

Ph.D., Engineering, 03/2017

     

Huazhong University of Science & Technology, Wuhan, China

M.S., Mechanical Engineering, 03/2012

B.S., Mechanical Engineering, 06/2009

Research and Professional Experience

Professor in the School of Mechanical Engineering and Automation

Beihang University, Beijing, China                             2023 - present

Post-doc/Assistant Professor in the Department of Mechanical Engineering

The University of Tokyo, Tokyo, Japan                       2017 - 2022