個人簡介
杜晗恒,北京航空航天大學副教授,國家級青年人才。主要研究方向為超精密加工技術、微納結構制造及其在光學、傳熱傳質、液滴操控等領域的應用。致力于航空航天、國防軍工、集成電路等高端裝備對超精密加工技術和功能微納結構制造的重大需求。主持/參與國家自然科學基金、General Research Fund(Hong Kong)、“敢為”計劃、中央高校基本科研業(yè)務費專項資金、全國重點實驗室開放課題等10余項。發(fā)表SCI論文30余篇,其中以第一作者/通訊作者在International Journal of Mechanical Sciences、Mechanical Systems and Signal Processing、Journal of Manufacturing Processes等先進制造領域頂刊發(fā)表SCI論文17篇,ESI高被引一篇,英文專著一章,合作發(fā)表Nature正刊一篇(排名第四)。
博士論文獲第十三屆上銀優(yōu)秀機械博士論文獎優(yōu)秀獎,科研成果獲中國發(fā)明協(xié)會發(fā)明創(chuàng)業(yè)獎創(chuàng)新獎二等獎。現(xiàn)擔任International Journal of Extreme Manufacturing、eScience、Exploration、Soft Science等SCI期刊青年編委和International Journal of Machine Tools and Manufacture、International Journal of Mechanical Sciences、Mechanical Systems and Signal Processing、Mechanism and Machine Theory等10余SCI期刊審稿人。中國機械工程學會高級會員、國際仿生工程學會會員、機械工程領域高質量科技期刊分級目錄評審專家等。
基本信息
杜晗恒,副教授,博士生導師,duhanheng@buaa.edu.cn
課題組網(wǎng)站: https://www.x-mol.com/groups/hanheng_du
教育背景
北京航空航天大學 機械制造及自動化系 碩士
香港理工大學 工業(yè)及系統(tǒng)工程學系 博士
工作經(jīng)歷
香港理工大學 工業(yè)及系統(tǒng)工程學系 博士后
研究方向
(1)超精密加工技術
(2)微納結構制造及功能性應用
(3)快刀伺服裝備設計與控制
(4)硬脆材料原子級可控去除
主要學術服務與任職
(1)《eScience》青年編委(IF: 42.9)
(2)《International Journal of Extreme Manufacturing》青年編委(IF:16.1)
(3)《MetalMat》青年編委
(4)《Exploration》青年編委
(5)《Soft Science》青年編委
(6)機械工程領域高質量科技期刊分級目錄評審專家
(7)中國機械工程學會高級會員
(8)國際仿生工程學會會員
主要獲獎及榮譽
(1)《International Journal of Extreme Manufacturing》優(yōu)秀審稿人(2024)
(2)北京航空航天大學第十七期微課演練優(yōu)秀獎(2024)
(3)第十三屆上銀優(yōu)秀機械博士論文獎優(yōu)秀獎(2023)
(4)中國發(fā)明協(xié)會發(fā)明創(chuàng)業(yè)獎創(chuàng)新獎二等獎(2022)
代表性學術論文
論著請見:https://scholar.google.com.hk/citations?user=713vpwcAAAAJ&hl=en&oi=ao
[1] Mengnan Jiang, Yang Wang, Fayu Liu, Hanheng Du, Yuchao Li, Huanhuan Zhang, Suet To, Steven Wang, Chin Pan, Jihong Yu, David Quéré & Zuankai Wang. “Inhibiting the Leidenfrost effect above 1,000 °C for sustained thermal cooling.” Nature 601, no. 7894 (2022): 568-572. (Q1, IF: 64.8)
[2] Hanheng Du, Mengnan Jiang, Zuankai Wang, Zhiwei Zhu, and Suet To. “Generating micro/nanostructures on magnesium alloy surface using ultraprecision diamond surface texturing process.” Journal of Magnesium and Alloys 11, no. 4 (2023): 1472-1483. (Q1, IF: 17.6)
[3] Hanheng Du, Mengnan Jiang, Zhiwei Zhu, Zuankai Wang, and Suet To. “Ultraprecision tool-servo cutting of pure nickel for fabricating micro/nanostructure arrays.” Materials & Design 221 (2022): 110913. (Q1, IF: 8.4) (封面)
[4] Hanheng Du, Suet To, Wai Sze Yip, and Zhiwei Zhu. “Development and assessment of a novel two-degree-of-freedom vibration generator for generating and hiding optical information.” Mechanical Systems and Signal Processing 181 (2022): 109470. (Q1, IF: 8.4)
[5] Hanheng Du, Dongpo Zhao, Changlin Liu, Huawei Chen, Suet To. “Laser-assisted slow tool servo diamond turning of single-crystal silicon for fabricating micro-lens arrays.” Journal of Manufacturing Processes (2024)127:174-183. (Q1, IF: 6.1)
[6] Hanheng Du, Huawei Chen, Zhiwei Zhu, Zuankai Wang, and Suet To. “Novel hybrid machining process of titanium alloy for texturing high-quality microstructure array surfaces.” Surface and Coatings Technology 462 (2023): 129494. (Q1, IF: 5.4) (封面)
[7] Hanheng Du, Zhiwei Zhu, Zuankai Wang, and Suet To. “Fabrication of high-aspect-ratio and hierarchical micro/nanostructure arrays by a novel piezoelectrically actuated cutting system.” Materials & Design 226 (2023): 111660. (Q1, IF: 8.4)
[8] Hanheng Du, Wai Sze Yip, Wanting Sun, Chengwei Kang, and Suet To. “In-situ laser-assisted ultraprecision cutting of WC-Co cemented carbide for creating microstructure arrays.” Ceramics International 49, no. 23 (2023): 38698-38707. (Q1, IF: 5.2)
[9] Hanheng Du, Chenliang Wu, Denghui Li, Wai Sze Yip, Zuankai Wang, and Suet To. “Feasibility study on ultraprecision micro-milling of the additively manufactured NiTi alloy for generating microstructure arrays.” Journal of Materials Research and Technology 25 (2023): 55-67. (Q1, IF: 6.4)
[10] Hanheng Du, Yidan Wang, Yuhan Li, Sen Yin, Denghui Li, Wai Sze Yip, and Suet To. “Improving the machinability of the high-entropy alloy CoCrFeMnNi by in-situ laser-assisted diamond turning.” Journal of Materials Research and Technology 27 (2023): 7110-7118. (Q1, IF: 6.4)
[11] Hanheng Du, Suet To, Tengfei Yin, and Zhiwei Zhu. “Microstructured surface generation and cutting force prediction of pure titanium TA2.” Precision Engineering 75 (2022): 101-110. (Q2, IF: 3.6)
[12] Hanheng Du, Waisze Yip, Zhiwei Zhu, and Sandy To. “Development of a two-degree-of-freedom vibration generator for fabricating optical microstructure arrays.” Optics Express 29, no. 16 (2021): 25903-25921. (Q2, IF: 3.833)
[13] Xiaonan Pu, Hanheng Du*, Jianghai Xu, Peng Huang, and Zhiwei Zhu. “Effect of rapid thermal annealing on the surface properties of the microlens arrays machined on monocrystalline silicon.” Applied Surface Science (2024): 159314. (通訊作者, Q1, IF: 6.7)
[14] Xiaonan Pu, Jianghai Xu, Peng Huang, Hanheng Du*, and Zhiwei Zhu. “Fast tool servo-based ultra-precision diamond sculpturing for fabricating micro-structured surfaces.” International Journal of Mechanical Sciences (2023): 108790. (通訊作者, Q1, IF: 7.3)
[15] Dongpo Zhao, Hanheng Du*, Haitao Wang, and Zhiwei Zhu. “Development of a novel fast tool servo using topology optimization.” International Journal of Mechanical Sciences 250 (2023): 108283. (通訊作者, Q1, IF: 7.3)
邀請學術報告
(1)2024年航空航天特種加工技術大會超聲及微納加工分會場,蘇州,2024.11
(2)2024年機械工程學會年會青年論壇,西安,2024.10
(3)The 8th Asia Pacific Conference on Optics Manufacture & 3rd International Forum of Young Scientists on Advanced Optical Manufacturing,深圳,2023.8
(4)The Third International Conference on Freeform Optics and Application Technology,深圳,2023.4
