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李琳

姓  名:

李琳

所在单位:

中国科学院宁波材料技术与工程研究所

职  称:

研究员,顶尖科学家,院士,激光极端制造研究中心主任

邮寄地址:

浙江省宁波市镇海区中官西路1219

办公电话:

 

电子邮件:

linli@nimte.ac.cn

办公地点:

行政楼307房间

教育背景

1978.3-1982.2 大连理大学电子系 制动控制专业 工学学士 B.E

1985.2-1989.6  英国帝国理工大学 激光工程专业 工学博士 PhD  

工作履历

1988.4-1994.8  英国利物浦大学助理研究员,副研究员 Research Assistant, Research Associate

1994.9-2000.3 英国曼彻斯特理工大学机械系讲师/副教授 (先进制造) 

2000.4-2022.1 英国曼彻斯特大学机械系教授激光工程),激光加工研究中心主任,期间担任过该校先进制造研究组组长,机械,航空与土木学院副院长(负责科研),曼彻斯特大学理工学部副部长(负责校企合作)

2022.3-至今 中科院宁波材料技术与工程研究所激光极端制造研究中心主任

英国皇家工程院院士(自2013年)

   

1994-2021  英国曼彻斯特理工大学,曼彻斯特大学机械系, 机械,航空与土木工程院本科研究生教学包括自动控制, 先进制造, 激光加工工程设计课程。博士研究生培养(60位博士生毕业 激光加工)

学术兼职

英国工业激光用户协会(AILU)主席 2017.05-2019.05

美国激光学会(LIA)主席 2016.01-2016.12

国际光子与激光工程学会( IAPLE)主席 2013.08-2015.08

激光制造与增材制造香山会议 共主席;

14个国际学术期刊编辑委成员,包括 Light: Science & ApplicationsInternational Journal of Extreme ManufacturingOpto-Electronic AdvancesOptics and Laser TechnologyIMechE Proceedings B, C.

研究领域

激光加工 (激光切割铣削、焊接打孔清洗表面处理微纳制造),激光增材制造(3D打印)

研究概况

1985年以来一直从事基于大功率激光的原创性材料加工工艺及纳米光学领域研究,发明了多项先进激光制造技术,包括无条纹激光切割技术,脉冲调控激光打孔技术,超窄间隙激光焊接技术,多材料一体激光增材制造技术,激光诱导反相沉积技术,异形激光光束加工技术,激光-火焰复合喷涂技术,激光诱导滲氮/滲硫石墨烯技术,钛合金激光清洗技术,高稳定性石墨烯锂硫电池电极激光合成技术,平行扫描高效率激光切割碳纤维复合材料技术,航空发动机激光打孔技术优化,核设施激光拆除技术,超快激光制造心血管支架技术,激光-溶胶复合表面镀膜技术,大面值钞票激光防伪技术,汽车铝合金激光清洗-焊接技术,微球阵列激光纳米刻蚀技术及微球透镜纳米显微镜技术等。部分原创性技术已在全球范围内被航空航天、汽车、能源、医疗等行业应用,尤其是英国罗罗航空发动机公司、英国路虎汽车公司,德国Delphi汽车发动机公司商业应用,产生实际经济效益。

现任中国科学院宁波材料技术与工程研究所激光极端制造研究中心主任,英国皇家工程院院士,国际光子与激光工程学会会士,国际生产工程学会会士,美国激光学会会士和英国工程技术学会会士。获英国皇家工程院Sir Frank Whittle Award、美国激光协会 Arthur L. Schawlow Award英国皇家协会Wolfson Research Merit奖、英国机械工程师学会Donald Julius Groen奖和英国工业激光学会终生成就奖多个重要学术及工程奖项

学术成果

出版著作:

1. J.Lawrence and L.Li, “Laser Modification of the Wettability Characteristics of Engineering Materials”, 178 pages, Published by Wiley-Blackwell, 19 Dec. 2000 (ISBN-10 1860582931, ISBN-13 978-1860582936).

2. C.Wei, and L.Li, “Thermometry in Laser Micro/Nano Fabrication” Chapter in Handbook of Laser Micro- and Nano- Engineering, published by Springer-Nature. September 2021.

3. C.Wei and L.Li, “Acoustic emission and ultrasound monitoring in laser micro/nanofabrication” Chapter in Handbook of Laser Micro- and Nano- Engineering, published by Springer-Nature. September 2021.

4. J.Lawrence and L.Li, “The challenges ahead for laser macro, micro and nano manufacturing” book chapter, in Advances in Laser Materials Processing: Technology, Research and Applications, 2nd edition, Woodhead Publishing book series.  2018, pp. 23-42.  DOI: 10.1016/B978-0-08-101252-9.00002-9

5. L.Li, ” Energy field interactions in hybrid laser/non-laser manufacturing” book chapter (pp319-330),in Intelligent Energy Field Manufacturing, Ed. Wenwu Zhang, publ by CRC Press, Taylor and Francis Group, ISBN: 978-1-4200-7101-6, 2011.

6. R Negarestani and L. Li, “Laser machining of fibre-reinforced polymeric composite materials” book chapter in Machining Technology for Composite Materials: Principles and Practice. Edited by H.Hocheng. Published by Woodhead Publishing Ltd. ISBN 0857090305.   Nov. 2011, 488 pages.

7. L.Li, “The challenges ahead for laser macro, micro and nano manufacturing”, book chapter, pp20-42, in Advances in Laser Materials Processing, Ed. By J.Lawrence, J.Pou, D.K.Y.Low and E.Toyserkani, CRC Press, Woodhead Publishing Ltd., Oxford, Cambridge, New Delhi, 2010. ISBN 978-1-84569-632-0.

8. Z.L.Li, P.L.Chu, H.T.Zheng, G.C.Lim, L.Li, S.Marimuthu, R.Negarestani, Laser machining of carbon fibre-reinforced plastic composites, book chapter, pp136 – 180. in Advances in Laser Materials Processing, Ed. By J. Lawrence, J.Pou, D.K.Y.Low and E.Toyserkani, CRC Press, Woodhead Publishing Ltd., Oxford, Cambridge, New Delhi, 2010. ISBN 978-1-84569-632-0.

9. L.Li, “Innovative Technologies in Laser Processing of Materials”, Book Chapter, in Advances in Laser Materials Processing Research and Applications, 2005, 57-75. ISBN: 81-308-0078-0. Editors: J.Lawrence and D.K.Y.Low, Publ. Research Signpost, 37/661(2), Fort P.O. Trivandrum-695 023, Kerala, India.

发表文章:

2022

1. Zhaoqing Li, Olivier Allegre ,Lin Li“Realising high aspect ratio 10 nm feature size in laser materials processing in air at 800 nm wavelength in the far-field by creating a high purity longitudinal light field at focusLight: science & applications, Vol. 11, Dec. 2022, article number:339.

2. W.Liu, Q.Chen, Y.Huang, D.Wang, L.Li, Z.Liu, “In situ laser synthesis of Pt nanoparticles imbedded graphene films for wearable strain sensors with ultra-high sensitivity and stability” Carbon, Vol. 190, 30 April 2022, 245-254

3. C.Wei, L.Liu, H.Cao, X.Zhong, X.Xu, Y.Gu, D.Cheng, Y.Huang, Z.Li, W.Guo, Z.Liu, L.Li, “Cu10Sn to Ti6Al4V bonding mechanisms in laser-based powder bed fusion multiple material additive manufacturing with different build strategies”, Additive Manufacturing, Vol. 51, March 2022, 102588.

4. J.Ouyang, P. Mativenga, Z.Liu, N.Goffin, L.Jones, E.Woolley, L.Li, “Sankey diagrams for energy consumption and scope 2 carbon emissions in laser de-coating”, Energy, Vol. 243, 15 March 2022, 123069.

5. C.Wei, L.Liu, Y.Gu, Y.Huang, Q.Chen, Z.Li, W.Guo, L.Li, “Multiple-material additive manufacturing of tungsten-copper alloy bimetallic structure with a stainless-steel interlayer and associated bonding mechanisms”, Additive Manufacturing, Vol. 50, February 2022, 102578.

6. D.Cheng, C.Wei,Y.Huang, Z.Zhang, Z.K.Liu, M. Newman,T.Ma, Y.H.Chueh, X.Zhang, Z.Liu, L.Li, “Additive manufacturing of lithium aluminosilicate glass-ceramic/metal 3D electronic components via multiple material laser powder bed fusion” Additive Manufacturing, Vol. 49, Jan. 2022, article number:102481.

2021

1. F.H.Rajab, A.K. Al-Jumaily, A.S.T. Tariq, S.L.Stanescu, A.W. Alshaer, L.Li, R.K.S. Al-Hamd “ A Comparison of Characteristics of Periodic Surface Micro/Nano Structures Generated Via Single Laser Beam Direct Writing and Particle Lens Array Parallel Beam Processing”, Journal of Micro and Nano-manufacturing, Vol.9, Issue 2, June 2021, 021007.

2. Y.Huang, K.K.Wong, W.Li, H.Zhao, T.Wang, S.Stanescu, S.Boult, B. van Dongen, P.Mtivenga, L.Li, “Characteristics of nano-plastics in bottled drinking water”, Journal of Hazardous Materials,  424(2022), 127404.

3. Y. Huang, C.Shang, L.Li, “Novel N-doped graphene enhanced ultrafiltration nano-porous polyvinylidene fluoride membrane with high permeability and stability for water treatment”, Separation and Purification Technology, 267(2021), 118622.

4. H.Gu, C.Wei, L.Li, M.Ryan, R.Setchi, Q.Q.Han, L.Qian, “Numerical and experimental study of molten pool behaviour and defect formation in multiple material and functionally graded materials laser powder bed fusion”, Advanced Powder Technology, Vol. 32, issue 11, Nov. 2021, pp.4303-4321

5. Y.D.Peng, J.Y.Cao, Y.Sha, W.J.Yang, L.Li, Z. Liu, “Laser solid-phase synthesis of single-atom catalysts”, Light: Science & Applications, Vol. 10, issue 1, Aug. 2021, DOI: 10.1038/s41377-021-00603-9

6. C. Wei, W. Guo, B. Gao, Y. Wang, Z. Sun, L. Li, “Understanding the behaviour of workpieces’ bulk temperature during laser-assisted turning of Ti6Al4V alloy and heating of Al-SiC metal-matrix composite rods,” Optics and Laser Technology Vol. 139, 2021, article no. 106951.

7. Z.Q.Li, “O.Allergre, Q.L.Li, W.Guo, L.Li, “Femtosecond laser single step, full depth cutting of thick silicon sheets with low surface roughness”, Optics and Laser Technology, Vol. 138, June 2021, Article number 106899.

8. C.Wei, L.Li, “Recent progress and scientific challenges in multiple material additive manufacturing via laser-based powder bed fusion”, Virtual and Physical Prototyping, May 2021, pp.1-25, DOI: 10.1080/17452759.2021.1928520 .

9.  J.L.Ouyang, P.T.Mativenga, Z.Liu, L.Li, “Energy consumption and process characteristics of picosecond laser de-coating of cutting tools” Journal of Cleaner Production, Vol. 290, March 2021, article no. 125815

10.  C.Wei, Z.Zhang, D.Cheng, Z.Sun, M.Zhu, L.Li, “An overview of laser-based multiple metallic material additive manufacturing: from macro to micro-scales” International Journal of Extreme Manufacturing, Vol.3, March 2021, pp. 46-69.

11.  Z.Q. Li, X.F.Wang, J.L.Wang, O.Allergre, W.Guo, W.Y. Gao, N.Jia, L.Li, “Stealth dicing of sapphire sheets with low surface roughness, zero kerf width, debris/crack free and zero taper using a femtosecond laser”, Optics and Laser Technology, Vol. 135, March 2021, article no. 106713.

12.  F.H.Rajab, A.S.T.Tariq, A.K.Al-Jumaily, A.W.AlShaer, L.Li, K.A.Whitehead, “The influence of picosecond laser generated periodic structures on bacterial behavior”, Applied Surface Science, Vol.540, part 1, Feb. 2021, article no. 148292.

13.  L.Orazi, L.Momoli, M.Schmidt, L.Li, “Ultrafast laser manufacturing: from physics to industrial applications”, CIRP Annals – Manufacturing Technology, Vol. 70, Issue 2, 2021, pp. 543-566.

14.  C.Wei, H.Gu, Q.Li, Z.Sun, Y.H.Chueh, Z.Liu, L.Li, “Understanding of process and material behaviours in additive manufacturing of Invar36/Cu10Sn multiple material components via laser-based powder bed fusion”, Additive Manufacturing, Vol. 37, Jan 2021, Article Number 101683.

15.  Y.X.Ye, Z.Nie, X.Huang, X.D.Ren, L.Li, “An analytical model for estimating the bending angle of metal sheets in laser peen forming”, Materials, Vol. 14, issue 2, Jan. 2021, article no. 462.

2020

1. Y.H.Chueh, X.J.Zhang, J.C.R.Ke, Q.Li, C.Wei, L.Li, “Additive manufacturing of hybrid metal/polymer objects via multiple-material laser powder bed fusion” Additive Manufacturing, Vol. 36, Dec. 2020, article no. 101465.

2. Y.Z.Sun, L.Chen, L.Li, X.D.Ren, “High-temperature oxidation behavior and mechanism of Inconel 625 super-alloy fabricated by selective laser melting” Optics and Laser Technology, Vol. 132, Dec. 2020, article no. 106509.

3. C.Wei, W.Guo, E.S.Pratomo, Q.Li, D.Wang, Whitehead, L.Li, “High speed, high power density laser-assisted machining of Al-SiC metal matrix composite with significant increase in productivity and surface quality”, Journal of Materials Processing Technology, Vol. 285, Nov. 2020, article number: 116784.

4. Z.Sun, Y.H.Chueh, L.Li, “Multiphase mesoscopic simulation of multiple and functionally gradient materials laser powder bed fusion additive manufacturing processes” , Additive Manufacturing, Vol. 35, Oct. 2020, article number: 101448

5. Z.Sun, W.Guo, L.Li, “In-process measurement of melt pool cross-sectional geometry and grain orientation in a laser directed energy deposition additive manufacturing process”, Optics and Laser Technology, Vo. 129, Sept. 2020, article number: 106280

6. L.Chen, Y.Z.Sun, L.Li, X.D.Ren, “Microstructural evolution and mechanical properties of selective laser melted a nickel-based superalloy after post treatment” Materials Science and Engineering A, Vol. 792, Aug. 2020, Article no.139649.

7. L.Chen, Y.Z.Sun, L.Li, X.D.Ren, “Microstructural evolution, mechanical properties and strengthening mechanism of TiC reinforced Inconel 625 nanocomposites fabricated by selective laser melting” Materials Science and Engineering A, Vol. 792, Aug. 2020, Article no.139655.

8. L.Chen, Y.Z.Sun, L.Li, X.D.Ren, “Improvement of high temperature oxidation resistance of additively manufactured nanocomposites by laser shock peening treatment” Additive Manufacturing, Vol. 34, Aug. 2020, article no.101276.

9. L.Chen, Y.Z.Sun, L.Li, Y.P.Ren, X.D.Ren,” In situ TiC/Inconel 625 nanoscomposite fabricated by selective laser melting: densification behavior, microstructure evolution, and wear properties”. Applied Surface Science, Vol. 518, July 2020.

10. Y.Peng,  J.Cao, J.Yang, W.Yang, C.Zhang, X.Li, R.Dryfe, L.Li, I.A.Kinloch, Z.Liu ”Laser assisted solution synthesis of high performance graphene supported electrocatalysts “ Advanced Functional Materials, June 2020, article number: 2001756

11. L.Chen, Y.Z.Sun, L.Li, X.D.Ren, “Effect of heat treatment on microstructure and high temperature oxidation behavior of TiC/Inconel 625 nanocomposite fabricated by selective laser melting”. Corrosion Science,  Vol. 169, June 2020, article no. 108606.

12. H.Gu, T.Waisto, L.Li, “Numerical and experimental study on the molten pool dynamics and fusion zone formation in multi-pass narrow gap laser welding”, Optics and Laser Technology, Vol. 126, June 2020, article number 106081.

13. K.Momoki, T.Manabe, L.Li, J.W.Yan, “Silicon nanoparticle generation and deposition on glass from waster silicon powder by nanosecond pulsed laser irradiation” Material Science and Semiconductor Processing. Vol 111. June 2020, article number: 104998.

14. X.J.Zhang, Y.H.Chueh, C.Wei, Z.Sun, J.W.Yan, L.Li,” Additive manufacturing of three-dimensional metal-glass functionally gradient material components by laser powder bed fusion with in situ powder mixing”, Additive Manufacturing, Vol.33, May 2020, article number 101113.

15. Z.Sun, W.Guo, L.Li, “Numerical modelling of heat transfer, mass transport and microstructure formation in a high deposition rate laser directed energy deposition process”. Additive Manufacture, Vol. 33, May 2020, article no.101175.

16. C.Wei, H.Gu, X.J.Zhang, Y.H.Chueh, L.Li, “Hybrid ultrasonic and mini-motor vibration-induced irregularly shaped powder delivery for multiple materials additive manufacturing”, Additive Manufacturing, Vol. 33, May 2020, article number 101138.

17. Y.H.Chueh, X.Zhang, C.Wei, Z.Sun, L.Li, “Additive manufacturing of polymer-metal/ceramic functionally graded composite components via multiple material laser powder bed fusion” ASME Transactions: Journal of Manufacturing Science and Engineering, Vol. 142, May 2020, No. 051003-1

18. H.Gu, C.Wei, Q.Q.Han, R.Setchi, M.Ryan, L.Li, “Multi-physics modelling of melt pool development and track formation in multi-track, multi-layer and multi-material selective laser melting”. International Journal of Heat and Mass Transfer,  Vol. 51, April 2020, Article number: 119458.

19. Y.Huang, M.Sepioni, D.Whitehead, Z.Liu, W.Guo, X.Zhang, H.Gu, L.Li, “Rapid growth of large area graphene on glass from olive oil by laser irradiation”, Nanotechnology, Vol 31, issue 24, March 2020, pp. 245601.

20. C.F.Ding, L.Li, H.T.Young, “Laser-induced backward transfer of conducting aluminum doped zinc oxide to glass for single-step rapid patterning”, Journal of Materials Processing Technology, Vol 275,  Jan. 2020, article number: 116357.

21. Y.H.Huang, S.J.Ni and L.Li, “Laser direct writing (LDW) of graphene patterns on ceramic using a flour paste” Lasers in Engineering, Vol.6, July 2020, pp. 321-328.

22. Z.Q.Li, O.Allegre, W.Guo, W.Y.Gao, B.H.Li, Q.L.Feng,  X.P.Wu, L.Li, “Ultrafast laser drilling of crack-free, debris-free and heat affected zone (HAZ)-free blind holes in Al2O3 with flat bottom and reduced taper angles”, Lasers in Engineering, Vol.46, July 2020, pp.367-381.

23. Z.Q.Li, J.L.Wang, X.F.Wang, O.Allegre, W.Guo, W.Y.Gao, Y.Xue, L.Li, “Debris-free, zero taper, cutting of Borofloat 33 glass using a femtosecond laser Bessel beam, “ Lasers in Engineering, Vol. 46, July 2020, pp.383-393.

24. Z.Q.Li, W.Guo, O.Allegre, C.G.Liu, W.Y.Gao, X.F.Wang, Z.X.Hou, K.Li, L.Zhang, L.Li, “Debris-free cutting of quartz with zero kerf width and ultra low surface roughness using femtosecond Bessel laser beam filamentation”, Lasers in Engineering,  Vol. 46, July 2020, pp. 343-357.

25. Y.H.Chueh, C.Wei, X.Zhang, L.Li, “Integrated laser based powder bed fusion and fused filament fabrication for three-dimensional printing of hybrid metal/polymer objects”, Additive Manufacturing Vol. 31, Jan. 2020, article no. 100928.

26. W. Liu, Y.H.Huang, Y.D.Peng, M.Salczak, D.Wang, Q.Chen, Z.Liu, L.Li, “Stable wearable strain sensors on textiles by direct laser writing of graphene”, ACS Applied Nano Materials, Vol. 3, issue 1, Jan. 2020, pp.283-293.

申请专利:

1. L.Li, C.Wei, X.J.Zhang and Y.H. Chueh, “Powder deposition” USA patent, 17/252,708, 15 December 2020, by The University of Manchester.

2. L.Li, C.Wei, X.J.Zhang and Y.H. Chueh, “Apparatus for and process of additive manufacturing” EU patent, EP19744793.1, 28 Jan 2021. by The University of Manchester.

3. L.Li, C.Wei, X.J.Zhang and Y.H. Chueh, “Apparatus for and process of additive manufacturing” International patent application, PCT/GB2018/051093, on 13 July 2018, by The University of Manchester.

4. L.Li, C.Wei, X.J.Zhang and Y.H. Chueh, “Powder deposition”, UK patent application, GB1810721.9, filed on 29 June 2018, by The University of Manchester.

5. L.Li, Y.H. Huang, “Laser direct writing of doped graphene” UK patent application, GB1811466, on 13 July 2018, by The University of Manchester.

6. L.Li, C.Wei “Additive manufacturing apparatus and method” , UK patent application, GB 1800743.5,  17 January 2018, by The University of Manchester.

7. L.Li, C.Wei “Apparatus for and process of additive manufacturing” UK patent, GB 17066457, 26 April 2017. The University of Manchester.

8. L. Li, Wei Guo, Sorin Stanescu: “Objective Lens Attachment” – International Patent:   PCT/GB2017/052060, 2017,  LIG Nanowise Ltd.

9. L.Li, Wei Guo, Sorin Stanescu:  “Laser Tweezers System for Imaging” –  International Patent: PCT/GB2017/052061, 2017, LIG Nanowise Ltd.

10. L.Li, N.Mirhosseini, D.Garrod, “Implant materials and methods of manufacture” UK patent application: 1203139.9. Filing date: 23 Feb. 2012. The University of Manchester.

11. L.Li, T.Wang, N.Mirhousseini, Z.Liu, A.Micheal, “Stents and methods of manufacture” UK patent application: 1203142.3. Filing date: 23 Feb. 2012. The University of Manchester.