谭超林

教授/金属材料与智能制造研究院

个人联系信息

通讯地址：苏州市相城区济学路8号苏大阳澄湖校区第二教学楼B座

联系电话：13570943211

电子邮件：[email protected]

学习工作经历

2024.12 –至今   苏州大学 金属材料与智能制造研究院 教授

2020.01 - 2024.12新加坡科技研究局，制造技术研究院，Senior Scientist /博导

2020.01 - 2023.06新加坡科技研究局，制造技术研究院，Scientist /首席研究员

2019.07 - 2019.12广东工业大学机电欧美激情，特聘副教授

2018.12 - 2019.11英国伯明翰大学机械欧美激情，荣誉研究员

2014.09 - 2019.06华南理工大学，博士

2017.11 - 2018.12英国伯明翰大学，联合培养博士

主要研究方向

• 金属增材制造设计-材料-工艺-组织-性能-装备研究。

• 机器学习辅助开发金属增材制造专用新材料。

• 多场耦合作用下的金属增材制造设备和成型过程机理研究。

• 激光增材制造多尺度异质结构材料。

主持科研项目

• 国家自然科学基金优秀青年基金(海外)项目,在研,主持。

• 2024年江苏省特聘教授项目, 100万元,在研,主持。

• 国家自然科学基金面上项目(52475484), 48万元,在研,主持。

• 新加坡RIE2025战略国家研究基金,青年独立研究项目(YIRG), No. M22K3c0097,约163万元,结题,主持。

• 新加坡RIE2025战略国家研究基金,新加坡2024年度航空航天计划项目,约250万元,在研,主持。

• 新加坡RIE2025战略国家研究基金,新加坡2022年度航空航天计划项目(No. M2215a0073),约210万元,结题,主持。

• 新加坡科技研究局(A*STAR),青年科学家职业发展项目(CDF), No. C210112051,约120万元,结题,主持。

• 广东省基础与应用基础研究青年基金项目(2019A1515110542), 10万元,结题,主持。

• 广州市科学技术学会,青年人才托举工程项目(X20200301015), 8.5万元,结题,主持。

• 新加坡制造技术研究院SSRT培育项目,约30万元,结题,主持。

代表性论著

1. 第一作者和通讯作者SCI论文

1. Tan C*, Q Li, X Yao, et al. Machine Learning Customized Novel Material for Energy-efficient 4D Printing.Advanced Science. 2023; 10: 2206607.

2. Tan C, R Li, J Su, et al. Review on field assisted metal additive manufacturing.International Journal of Machine Tools and Manufacture. 2023; 189:104032.特邀综述，ESI热点&高被引

3. Tan C, Chew Y, Weng F, et al.Laser aided additive manufacturing of spatially heterostructured steels.International Journal of Machine Tools and Manufacture. 2022; 172:103817

4. Tan C, Weng F, S Sui, et al. Progress and Perspectives in Laser Additive Manufacturing of Key Aeroengine Materials.International Journal of Machine Tools and Manufacture. 2021,170:103804ESI热点&高被引

5. Tan C, Zou J, Li S, et al. Additive manufacturing of bio-inspired multi-scale hierarchically strengthened lattice structures.International Journal of Machine Tools and Manufacture. 2021;167:103764.封面文章

6. Tan C, Zhang X, Dong D, et al.In-situ synthesised interlayer enhances bonding strength in additively manufactured multi-material hybrid tooling.International Journal of Machine Tools and Manufacture. 2020;155:103592.

7. Tan C, Li S, Essa K, et al. Laser Powder Bed Fusion of Ti-rich TiNi lattice structures: Process optimisation, geometrical integrity, and phase transformations.International Journal of Machine Tools and Manufacture. 2019;141:19-29.

8. Tan C, Ma W, Deng C, et al.Additive manufacturing SiC-reinforced maraging steel: Parameter optimisation, microstructure and properties.Advanced Powder Materials. 2023; 2: 100076.

9. Tan C, Li S, Abena A, et al. Mechanical property and biological behaviour of additive manufactured TiNi functionally graded lattice structure.International Journal of Extreme Manufacturing. 2022;4:045003

10. J. Su, Q. Li, J. Teng, F.L. Ng, Z. Shen, M.H. Goh, F. Jiang***, S.L. Sing, T. Yang,C. Tan*, Programmable mechanical properties of additively manufactured novel steel,International Journal of Extreme Manufacturing.2025;7: 015001. (唯一通讯)

11. Liu T, F Qiu**, Chen P, Yang H, Tan N, Chew Y, Wang D, Li R, Jiang Q,Tan C*.Review on Laser Directed Energy Deposited Aluminum Alloys.International Journal of Extreme Manufacturing. 2024; 06:022004ESI高被引

12. J Su, F Jiang *, J Teng *, L Chen, M Yan, G Requena, L Zhang, Y M Wang, I V Okulov, H Zhu,Tan C*.Recent Innovations in Laser Additive Manufacturing of Titanium Alloys.International Journal of Extreme Manufacturing. 2024; 06:032001

13. Tan C*, Liu Y, Weng F, et al. Additive manufacturing of voxelized heterostructured materials with hierarchical phases.Additive Manufacturing, 2022; 54:102775.

14. Tan C*, Zou J, Wang D, et al.Duplex strengthening in additively manufactured SiC-reinforced intrinsic precipitation hardening steel.Composites Part B: Engineering, 2022,236: 109820.

15. Tan C, Chew Y, Weng F, et al. Superior strength-ductility in laser aided additive manufactured high-strength steel by combination of intrinsic tempering and heat treatment.Virtual and Physical Prototyping. 2021; 16(4): 460-480.

16. Tan C, Chew Y, Bi G, et al. Additive manufacturing of steel-copper functionally graded material with ultrahigh bonding strength.Journal of Materials Science & Technology. 2021;72:217-222.[1, 2]

17. Zou Y,Tan C*, Qiu Z, et al. Additively manufactured SiC-reinforced stainless steel with excellent strength and wear resistance.Additive Manufacturing. 2021; 41:101971.  (唯一通讯)

18. Su J., F Jiang,Tan C*,et al. Additive manufacturing of fine-grained high-strength titanium alloy via multi-eutectoid elements alloying.Composites Part B: Engineering, 2023;249: 110399.

19. Liu W, Meng J, Xiao J, Li H*, Wu L, Yin Q*,Tan C*. A customised novel hybrid post-treatment process achieved excellent mechanical properties in additively manufactured Haynes 230 alloy.Virtual and Physical Prototyping, 2024; 19(1), 2386593.

20. J Su, F Jiang*, J Teng*, L Chen, M Yan, G Requena, L Zhang, Y M Wang, I V Okulov, H. Zhu, G Bo. Y Chew*,Tan C*.Laser additive manufacturing of titanium alloys: process, materials and post-processing.Rare Metals. 2024; 43: 6288-6328

21. Tan C, Chew Y, Duan R, et al. Additive manufacturing of multi-scale heterostructured high-strength steels.Materials Research Letters. 2021;9:291-299.

22. T Liu, F Qiu**, S Du, J Su, H Yang, P Chen, F L Ng, Y. Chew, Q Jiang,Tan C*. Tailored porosity in additive manufacturing of 7075 aluminum alloy for crack suppression and high strength,Journal of Materials Processing Technology, 2024; 334,118620.

23. Tan C, Wang D, Ma W, et al.Design and additive manufacturing of novel conformal cooling molds.Materials & Design. 2020;196:109147.

24. Tan C, Zhou K, Ma W, et al.Microstructural evolution, nanoprecipitation behavior and mechanical properties of selective laser melted high-performance grade 300 maraging steel.Materials & Design. 2017;134:23-34. ESI高被引

25. Tan C*, Zhou K*, Ma W, Min L. Interfacial characteristic and mechanical performance of maraging steel-copper functional bimetal produced by selective laser melting based hybrid manufacture.Materials & Design. 2018;155:77-85.

26. Tan C, Zou J. Fu Z. 4D printing for future manufacturing.Science China Materials. 2023; 11: 4517-4518

27. Tan C*, Zhou K*, Ma W, et al.Selective laser melting of high-performance pure tungsten: parameter design, densification behavior and mechanical properties.Science and Technology of Advanced Materials. 2018;19:370-380.

28. Tan C*, Zhou K*, Kuang M, et al.Microstructural characterisation and properties of selective laser melted maraging steel with different build directions.Science and Technology of Advanced Materials. 2018;19:746-758.

29. Tan C, Zhu H, Kuang T, et al.Laser cladding Al-based amorphous-nanocrystalline composite coatings on AZ80 magnesium alloy under water cooling condition.Journal of Alloys and Compounds. 2017;690:108-115.

30. Tan C, Wang D, Ma W, Zhou K. Ultra-strong bond interface in additively manufactured iron-based multi-materials.Materials Science and Engineering: A. 2021;802:140642.

31. Tan C*, Zhou K*, Kuang T. Selective laser melting of tungsten-copper functionally graded material.Materials Letters. 2019;237:328-231.

32. Tan C, Zhou K, Ma W, Zeng D. Research Progress of Laser Additive Manufacturing of Maraging Steels.Acta Metall Sin. 2019;56:36-52.

33. Tan C, Kuang T, Zhou K, et al.Fabrication and characterisation of in-situ duplex plasma-treated nanocrystalline Ti/AlTiN coatings.Ceramics International. 2016;42: 10793-800.

34. Tan C, Zhou K, Kuang T, et al.Novel performances of in situ plasma nitriding-PVD duplex-treated nanocrystalline TiN coatings.Surface Engineering. 2018;34: 520-526.

35. Deng Y¹,Tan C¹, Wang Y, et al. Effects of tailored nitriding layers on comprehensive properties of duplex plasma-treated AlTiN coatings.Ceramics International. 2017;43: 8721-9.   (共同一作)

36. Wang D, Dou W, Ou Y, Yang, Y.,Tan C*, Zhang, Y**. Characteristics of droplet spatter behavior and process-correlated mapping model in laser powder bed fusion.Journal of Materials Research and Technology, 2021, 12: 1051-1064.

37. Wang D, Huang J,Tan C*, et al.Mechanical and corrosion properties of additively manufactured SiC-reinforced stainless steel.Materials Science and Engineering: A. 2022;841: 143018. (唯一通讯).

38. Wang D, Deng G, Yang, Y, Chen J, Wang H,Tan C*.Interface microstructure and mechanical properties of selective laser melted multilayer functionally graded materials.Journal of Central South University, 2020,27(10):1-12.(唯一通讯)

39. Wang D, Huang J,Tan C*, Yang Y. Review on effects of cyclic thermal history in laser additive manufacturing on microstructure and property of materials.Acta Metall Sin. 2022, 58(10):1221-1235. (唯一通讯)

40. Su J,Tan C*, Ng F L,et al. Additive manufacturing of novel heterostructured martensite-austenite dual-phase steel through in-situ alloying.Materials Today Communications, 2022; 33: 104724.

2. 署名书籍专著

• 王迪,杨永强,刘洋,白玉超,谭超林.《粉末床激光熔融技术》国防工业出版社,北京. 2021.59

• 字

• D Wang, Y Yang, Y Liu, Y Bai,C Tan.Laser Powder Bed Fusion Additive Manufacturing Technology. Springer. 2023

获奖情况

• 入选斯坦福大学2022-2024年度全球前2%顶尖科学家榜单

• 国际先进材料协会(IAAM)杰出科学家奖

• 2019年入选广州市科协青年托举人才(每年20人)

• Journal of Central South China期刊2022和2023年度最佳论文奖。

• International Journal of Extreme Manufacturing期刊2023和2024年度优秀青年编辑。

• International Journal of Extreme Manufacturing期刊2022年度最佳论文奖。

• 第八届中国国际“互联网+”大学生创新创业大赛 银奖项目指导老师

• 第十一届全国表面工程大会 优秀报告

• 19th International Interfinish World Congress & Exhibition国际会议优秀墙报

• 2014年 “挑战杯”第九届全国大学生创业计划竞赛 国家级铜奖

• 2013年 第六届全国大学生节能减排竞赛 国家级三等奖

学术任职

• 国际先进材料协会会士(Fellow of IAAM)。

• 国际机械顶刊International Journal of Machine Tools and Manufacture编委。

• 中科院一区Top期刊International Journal of Extreme Manufacturing青年编辑。

• 中科院一区Top期刊Journal of Materials Science & Technology青年编辑。

• 中科院一区Top期刊Rare Metals青年编委。

• 中科院一区Top期刊Materials Research Letters青年编辑。

• 中科院一区Top期刊Transactions of Nonferrous Metals Society of China青年编委。

• 中科院二区期刊Chinese Journal of Mechanical Engineering青年编委。

• SCI期刊CMC-Computers, Materials & Continua编委

• 高起点期刊cMat创刊编委

• Journal of Materials Informatics期刊编委