陳杉杉,副教授,碩士生導師。主要從事超精密複雜曲面的加工工藝與測量技術研究。2018年4月和2019年6月分别于香港理工大學(導師:Benny C.F. Cheung 教授)和哈爾濱工業大學(導師:張飛虎 教授)獲得雙博士學位。2020年10月-2022年1月于英國諾丁漢大學大學從事博士後研究工作(導師:Dragos Axinte 教授)。以第一作者發表國際學術期刊論文10餘篇,連續兩屆nanoMan國際會議獲得最佳論文獎(2018年和2021年),獲得Nanomanufacturing and Metrology期刊2020年度優秀論文,參與撰寫外文書籍2部。擔任《金剛石與磨料磨具工程》期刊編委,國際工程技術學會AET會員,中國光學工程學會高級會員,陝西機械工程學會摩擦學分會會員。擔任國際期刊Crystals和Micromachines的客座編輯, International Journal of Machine Tools and Manufacture, Journal of Manufacturing Systems, Journal of Manufacturing Processes, international journal of Nanomanufacturing, Nanomanufacturing and Metrology等期刊審稿人。
研究方向:1.微納模具加工 2.光學超精密加工技術 3.微電子基材抛光技術
聯系方式:
辦公地點:太阳成集团tyc234cc大學城工學2号館327室
手 機:18745195320
Email:chenshanshan2009@gdut.edu.cn
團隊所在的省部共建精密電子制造技術與裝備國家重點實驗室,以“高速高精運動生成與精準運動控制”為特色研究方向,緻力于超精密加工和檢測平台的設計與優化,深入探索超精密加工機理,開展工藝創新及相關技術應用研究。目前,實驗室已在微米級材料去除與納米級表面生成理論、難加工材料金剛石切削機理、功能微結構陣列超精密加工理論與方法、微納定位平台設計以及超精密加工裝備研發等多個領域,形成了獨具特色且配套齊全的軟硬件研究條件。
面向機械、自動化、計算機、電氣等相關專業的本科同學,誠摯歡迎有志之士聯系并加入我們!
主持項目研究經曆
項目編号 |
項目名稱 |
項目來源 |
起止時間 |
承擔角色 |
52293400 |
關鍵光學元件高性能制造基礎 |
基金委重大項目 |
2023-01~2027-12 |
子課題主持 |
52105481 |
急變曲率硬脆光學元件磨削表面形成機制及損傷控制方法研究 |
國家自然科學基金青年項目 |
2022-01~2024-12 |
負責人 |
3115200198 |
自由曲面磨削表面形成機理及方法研究 |
中國博士後基金項目 |
2020-01~2021-12 |
負責人 |
2022YFE020500 |
第三代半導體 SiC 晶片的全工藝無損傷智能檢測技術與裝置研發 |
2022年港澳台戰略性科技創新合作重點專項 |
2023-07~2025-06 |
子課題主持 |
LQ21E050010 |
多晶硬脆材料化學機械抛光納米表面形成機理研究 |
浙江省自然科學基金 |
2021-01~2023-12 |
負責人 |
JDKFJJ2022004 |
自由曲面磨削表面形成機理及損傷控制方法研究 |
河南省超硬磨料磨削裝備重點實驗室開放課題 |
2022-12~2024-12 |
負責人 |
20231194 |
碳化矽顆粒增強鋁基耐磨複合材料 |
太阳成集团tyc234cc項目 |
2023-08~2024-07 |
負責人 |
HXDSH20220550 |
漸開線圓柱齒輪測繪軟件開發 |
企業合作項目 |
2022-05~2024-05 |
負責人 |
JZM-202003002-02 |
因***究 (子課題:複雜曲面超精密加工及測量) |
JG項目 |
2019-12~2024-12 |
子課題主持 |
312290001001 |
平行法磨削自由曲面在位測量與誤差補償技術研究 |
陝西省科學技術局項目 |
2020-01~2021-12 |
負責人 |
出版學術成果
國際期刊論文:
[1] Shanshan Chen, Shuming Yang*, Chi Fai Cheung*, Duanzhi Duan, Lai Ting Ho, Zhuangde Jiang, Chengwei Kang. Fabrication of high-precision micro-structure array using phase shift modulation of superimposed oscillation in ultra-precision grinding. Optics Express, 2022, 30(24): 44321-44338.
[2] Shanshan Chen, Shuming Yang*, Zhirong Liao*, Chi Fai Cheung, Zhuangde Jiang, and Feihu Zhang. Study of deterministic surface micro-texture generation in ultra-precision grinding considering wheel oscillation. Optics Express, 2022, 30(4): 5329-5346.
[3] Shanshan Chen, Shuming Yang*, Zhirong Liao, Chi Fai Cheung, Zhuangde Jiang, Feihu Zhang. Curvature effect on surface topography and uniform scallop height control in normal grinding of optical curved surface considering wheel vibration [J]. Optics Express, 2021, 29(6): 8041-8063.
[4] Shanshan Chen, Shuming Yang*, Chi Fai Cheung*, Tao Liu; Duanzhi Duan, Lai Ting Ho, Zhuangde Jiang, Study on the surface generation mechanism during ultra-precision parallel grinding of SiC ceramics, Crystals. 2023, 13(4), 646. https://doi.org/10.3390/cryst13040646.
[5] Shanshan Chen, Chi Fai Cheung*, Feihu Zhang, Lai Ting Ho, Chenyang Zhao. Theoretical and experimental investigation of tool path control strategy for uniform surface generation in ultra-precision grinding, The International Journal of Advanced Manufacturing Technology. 2019, 103(9–12):4307–4315.
[6] Shanshan Chen, Shuming Yang*, Chi Fai, Cheung, Lai Ting Ho, Feihu Zhang. Suppression strategy of micro-waviness error in ultra-precision parallel grinding. Nanomanufacturing and Metrology. 2022, 5: 423–429.
[7] Shanshan Chen, Chifai Cheung*, Feihu Zhang. Optimization of tool path for uniform scallop-height in ultra-precision grinding of free-form surfaces. Nanomanufacturing and Metrology. 2019, 2: 215-224.
[8] Shanshan Chen, Chifai Cheung*, Feihu Zhang, Chenyang Zhao. Three-dimensional modelling and simulation of vibration marks on surface generation in ultra-precision grinding. Precision Engineering. 2018, 53:221-235.
[9] Shanshan Chen*, Chifai Cheung, Feihu Zhang. An experimental and theoretical analysis of surface generation in ultra-precision grinding of hard and brittle materials, The International Journal of Advanced Manufacturing Technology. 2018, 97:2715-2729.
[10] Shanshan Chen*, Chifai Cheung, Chenyang Zhao, Feihu Zhang. Simulated and measured surface roughness in high-speed grinding of silicon carbide wafers, The International Journal of Advanced Manufacturing Technology. 2017, 91(1-4):719-730.
出版書籍:
[1] Shanshan Chen*, Guofeng Zhang. Error Allocation in the Design of Precision Machines. Precision Manufacturing. Precision Machines. Springer. 2020, 207-232.
[2] Shanshan Chen*. Processing Techniques of Critical Components. Precision Manufacturing. Precision Machines. Springer. 2020, 315-352.
[3] Shanshan Chen*. General Manufacturing Processes. Precision Machining Process and Technology. Springer. Singapore. 2025, 1-29.
[4] Shanshan Chen*. Manufacturing Processes of Brittle Materials. Precision Machining Process and Technology. Springer. Singapore. 2025, 1-35.
[5] Shanshan Chen*. Manufacturing Processes of Optical Materials. Precision Machining Process and Technology. Springer. Singapore. 2025, 1-32.
[6] Shanshan Chen*. The Future of Precision Manufacturing Technologies. Precision Machining Process and Technology. Springer. Singapore. 2025, 1-6.
[7] Chen Li, Chongjun Wu, Binbin Meng, Shanshan Chen. Special Issue: Processing Technology of Brittle Crystal Materials. Crystals, ISBN 978-3-0365-8866-7 (hardback); ISBN 978-3-0365-8867-4 (PDF).
會議論文:
[1] Shanshan Chen, Chengwei Kang*, Chi Fai, Cheung, Zhuangde Jiang, Lai Ting Ho, Shuming Yang*. Research on surface generation in the ultraprecision parallel grinding of curved surfaces. 8th International Conference on Nanomanufacturing (nanoMan2022).
[2] Shanshan Chen, Shuming Yang*, Chi Fai, Cheung, Lai Ting Ho, Feihu Zhang. Suppression strategy of micro-waviness error in the ultra-precision parallel grinding. 7th International Conference on Nanomanufacturing (nanoMan2020) (優秀論文).
[3] Shanshan Chen*, Chi Fai Cheung, Feihu Zhang. A study of optimized tool path for uniform scallop-height in ultra-precision grinding of freeform surfaces. 6th International Conference on Nanomanufacturing (nanoMan2018) (優秀論文).
通訊作者論文
[1] Mingzhi Yu, Libo Zhao, Shanshan Chen*, Xiangguang Han, Chen Jia*, Yong Xia, Xiaozhang Wang, Yonglu Wang, Ping Yang, Dejiang Lu, Zhuangde Jiang. Monolithically integrated triaxial high-performance micro accelerometers with position-independent pure axial stressed piezoresistive beams. Microsystems & Nanoengineering, 2023, 9. https://doi.org/10.1038/s41378-022-00474-z.
[2] Zheng Yuan, Song Feng, Shanshan Chen*, Weixuan Jing*, Libo Zhao, Zhuangde Jiang. A ferromagnetic particle sensor based on a honeycomb permanent magnet for high precision and high throughput. IEEE Transactions on Instrumentation and Measurement. 2022, 71:1-9.
特邀報告:
[1] 陳杉杉. 複雜光學元件超精密磨削加工多尺度表面形成機理. 2023第四屆《金剛石與磨料磨具工程》雜志青年學者論壇, 廈門, 2023年8月25日.
[2] 陳杉杉. 複雜光學元件超精密磨削表面形成機理. 2023年世界光子大會暨第12屆國際應用光學與光子學技術交流大會(AOPC2023), 北京, 2023年7月25日.
[3] 陳杉杉. 基于相移調制的高精度微結構陣列超精密磨削技術. 2022年國際先進光學制造青年科學家論壇特邀報告(YSAOM 2022),長春, 2022年7月30日.
[4] 陳杉杉. 超精密磨削表面生成機理. 2022年精密工程研究所25周年特邀報告會議, 西安交通大學, 2022年4月26日 (青年學者優秀報告獎).
