严明

教授 材料科学与工程系

严明教授、洪堡学者(资深)、深圳市航空发动机3D打印粉材工程实验室主任。

严明教授本科——博士主要就读于哈尔滨工业大学(1997.09-2006.11),并于攻读博士学位期间赴澳大利亚昆士兰大学接受联合培养(2004.10-2006.04)。他博士毕业之后先后工作于日本国立材料研究所(2007.01-2008.12)、昆士兰大学(2009.01-2014.01)及皇家墨尔本理工大学(2014.01-2014.12),于2014年底回国任南方科技大学材料系及机械&能源系副教授,2024年任正教授。

他是“广东省机械工程学会增材制造分会”理事,是“广东省粉末冶金产业技术联盟”专家委员会委员,广东省重大专项(增材制造方向)中期考核专家组成员。他获得过的国际学术荣誉包括德国洪堡学者、日本学术振兴会奖学金JSPS Invitation Fellowship、澳大利亚国家博士后奖学金(ARC-APD)、昆士兰州青年学者奖学金(Queensland Smart Future Fellowship-Early Career)、深圳市孔雀计划等。

个人简介

严明教授课题组2019年发表论文集合

[1]Cost-affordable, high-performance Ti–TiB composite for selective laser melting additive manufacturing, Yangping Dong, Tingting Song, Yulong Li*, Ming Yan*, Journal of Materials Research, 2020, 35: 1922-1935.
[2]Laser additive manufacturing of typical highly reflective materials—gold, silver and copper, Ruinan Gu, Kam Sing WONG*, Ming Yan*, SCIENTIA SINICA, 2019, 50: 034204..
[3]Selective laser melting helps fabricate record-large bulk metallic glass: Experiments, simulation and demonstrative part, Liang Wang, Hao Wang*, S.Y. Zhou, Zhongxue Fu, Taijiang Peng, Jun Shen, Gang Wang, Yuhong Dai, Ming Yan*, Journal of Alloys and Compounds, 2019, 808: 151731.
[4]Selective laser melting of the hard-to-weld IN738LC superalloy: Efforts to mitigate defects and the resultant microstructural and mechanical properties, H Wang; X. Zhang, G B Wang; J Shen; G Q Zhang*; Y P Li; M. Yan, Journal of Alloys and Compounds, 2019, 807: 151662.
[5]Selective laser melting of Ti-22Al-25Nb intermetallic: Significant effects of hatch distance on microstructural features and mechanical properties, Zhou, YH; Li, WP ; Zhang, L ; Zhou, SY; Jia, X ; Wang, DW ; Yan, M*, Journal of Materials Processing Technology, 2020, 276, 116398.
[6]Selective laser melting under the reactive atmosphere: A convenient and efficient approach to fabricate ultrahigh strength commercially pure titanium without sacrificing ductility, D.W.Wang, Y.H.Zhou, J.Shen, Y.Liu, D.F.Li, Q.Zhou, G.Sha, P.Xu, T.Ebel, M.Yan, Materials Science & Engineering A, 2019, 762: 138078.
[7]Wetting kinetics and spreading phenomena of the precursor film and bulk liquid in the AgCuTi/TC4 system, Guanpeng Liu, Yulong Li, Weifeng Long, Xiaowu Hu, Jian Cao, Ming Yan, Journal of Alloys and Compounds, 2019, 802: 345-354..
[8]Mechanically Blended Al: Simple but Effective Approach to Improving Mechanical Property and Thermal Stability of Selective Laser-Melted Inconel 718, Z. H. Zhang Y. H. Zhou S. Y. Zhou L. Zhang M. Yan, Metallurgical and Materials Transactions A, 2019, 50A: 3922-3936.
[9]Selective laser melting enabled additive manufacturing of Ti–22Al–25Nb intermetallic Excellent combination of strength and ductility, and unique microstructural features associated, Y.H.Zhou, W.P. Li, D.W. Wang, L. Zhang, K. Ohara, J. Shen, T.Ebel, M.Yan, Acta Materialia, 2019, 173: 117-129.
[10]Mechanical properties and cross-sectional behavior of additively manufactured high strength steel tubular sections, Ju-Jie Yan, Man-Tai Chen∗, Wai-Meng Quach, Ming Yan, Ben Young, Thin-Walled Structures, 2019, 144, 106158.
[11]Microstructure and mechanical properties of Ti-6Al-4V prepared by nickel preplating and electron beam surface remelting, Zhilin Wu, Wenqin Wang, Xuewen Li, Ming Yan, Yulong Li, Journal of Materials Processing Tech., 2019, 271: 420–428.
[12]Ultra-low cost Ti powder for Selective laser melting additive manufacturing and superior mechanical properties associated, Yuhang Hou1, Bin Liu2, Yong Liu2, Yinghao Zhou1, Tingting Song3, Qi Zhou4, Gang Sha4, Ming Yan1*, Opto-Electronic Advances, 2019, 2: 180028.
[13]Selective Laser Melting of Ti Composites: Latest Developments, Dong Yangping, Li Yulong, Yan Ming, Materials Reviews, 2019, 33: 729-730.
[14]Wide bandwidth acoustic transmission via coiled-up metamaterial with impedance matching layers, Xiao Jia, Yang Li, Yinghao Zhou, Minghui Hong and Ming Yan, SCIENCE CHINA_Physics, 2019, 62: 964311.
[15]3D printed breathable mould steel: Small micrometer-sized, interconnected pores by creatively introducing foaming agent to additive manufacturing, G.H. Zeng, T. Song, Y.H. Dai, H.P. Tange, M. Yan, Materials and Design, 2019, 169:107693.
[16]A novel approach to achieving a low Young’s modulus in titanium-based metallic glasses, J.P. Luo, X. Jia, D.L. Zheng, G. Wang, J.F. Sun*, M. Yan, Emerging Materials Research, 2019, 8: 22-28.
[17]in-situ and ex-situ synchrotron X-ray diffraction studies of microstructural length-scale contrilled dealloying, T. Song, M. Yan, N.A.S. Webster, M.J. Styles, J.A. Kimpton, M. Qian*, Acta Materialia, 2019, 168: 376-392.
[18]A comprehensive study of steel powders (316L, H13, P20 and 18Ni300) for their selective lase melting additive manufacturing, Jujie Yan, Yinghao Zhou, Ruinan Gu, Xingmin Zhang, Wai-Meng Quach *, Ming Yan *, Metals, 2019, 9(1), 86.

教育背景
1997.09-2001.07 哈尔滨工业大学 材料科学与工程 学士
2001.09-2003.07 哈尔滨工业大学 材料科学与工程 硕士
2003.09-2006.11 哈尔滨工业大学 材料科学与工程 博士
2004.10-2006.04 昆士兰大学(澳大利亚) 矿冶&机械系 联合培养博士生
科研工作经历
2007.01-2008.12 日本 国立材料研究所 博士后研究员
2009.01-2012.04 澳大利亚 昆士兰大学 澳大利亚国家博士后 (ARC-APD)
2012.04-2014.01 澳大利亚 昆士兰大学 昆士兰州州立青年学者 (Queensland Smart Future Fellow (Early Career))
2014.01-2014.12 澳大利亚 皇家墨尔本理工大学 研究员
2014.12-至今  南方科技大学 教授/研究员
主要荣誉
2008澳大利亚博士后奖学金 (ARC-APD)
2010 昆士兰州 国际访问奖学金 (Queensland International Fellowship)
2012、2013 澳大利亚轻金属协会 最佳论文奖(Best Paper Award)
2012 昆士兰州 青年学者奖学金 (Queensland Smart Future Fellow (Early Career))
2013 日本振兴学会奖学金 (JSPS Fellowship (Invitation))
2017 德国洪堡学者(Humboldt Fellowship for Experienced Researchers)
研究领域
金属材料及陶瓷材料的3D打印(钛合金、铝合金、钢、镍基高温合金、铜、高熵合金、镁合金、碳化硅等)。代表性论文/著作如下。

 [1] (Book chapter) M. Yan, H.P. Tang, M. Qian, Elsevier and Science Direct, ISBN: 978-0-12-800054-0, 2015.
 [2] Y.H. Zhou, Z.H. Zhang, Y.P. Wang, G. Liu, S.Y. Zhou, Y.L. Li, J. Shen, M. Yan*,  Additive Manufacturing 25 (2019) 204-217.
 [3] Y.H. Zhou, W.P. Li, D.W. Wang, L. Zhang, K. Ohara, J. Shen, T. Ebel, M. Yan*, Acta Materialia, 173 (2019) 1117-129.
 [4] M. Yan, M.S. Dargusch, T. Ebel, M. Qian, Acta Materialia, 2014; 68: 196-206.
 [5] M. Yan, M. Qian, C. Kong, M.S. Dargusch, Acta Biomaterialia, 2014; 68: 1014-1023.
 [6] M. Yan, P. Yu, G.B. Schaffer, M. Qian, Acta Materialia, 2010, 58: 5667-5674.
 [7] M. Yan, T. Mori, J. Zou, F. Ye, D.R. Ou, J. Drennan, Acta Materialia, 2009, 57: 722-731.
 [8] M. Yan, J. Zou, J. Shen, Acta Materialia, 2006, 54: 3627-3635.
 [9] M. Yan, Y. Liu, G.B. Schaffer, M. Qian, Scripta Materialia, 2013, 68: 63-66.
 [10] M. Yan, Y. Liu, Y.B. Liu, C. Kong, G.B. Schaffer, M. Qian, Scripta Materialia, 2012, 67: 491-494.
 [11] M. Yan, S. Kohara, J.Q. Wang, K. Nogita, G.B. Schaffer, M. Qian, Scripta Materialia, 2011, 65: 755-758.
 [12] M. Yan, D.J. Wang, J. Shen, M. Qian, Scripta Materialia, 2011, 64: 701-704.
 [13] M. Yan, P. Yu, K.B. Kim, J.K. Lee, G.B. Schaffer, M. Qian, Scripta Materialia, 2010, 62: 266-269.

研究领域

严明教授主要科研方向为金属材料及陶瓷材料的3D打印(钛合金、铝合金、钢、镍基高温合金、铜、高熵合金、镁合金、碳化硅氧化锆等)。


教学

3D打印及激光先进制造


学术成果 查看更多

严明教授发表有第一作者国际期刊论文&英文书籍章节37篇,包括Acta Materialia、Scripta Materilia、Materials Today 等行业顶尖杂志。他的全部国际期刊论文、专业书籍章节共180余篇。

严明副教授已递交增材制造方向的发明专利及实用新型专利25项。他的研究组成功的开发了超低成本、高性能的3D打印钛材料(专利号201710930162.9,201811564627.4)以及成功开发了3D打印用7系铝合金粉体(专利号201811082116.9)。

近五年严明教授在相关领域的主要学术成果阐述如下:

(1) 开发了3D打印用超低成本钛粉(成本约为商业球形钛粉的20%);首次探索了活性气氛这一强化3D打印纯钛的新型方法;建立了包括钛及钛合金在内的金属材料SLM成型模型;受邀撰写3D打印Ti-6Al-4V的专业书籍章节一篇。

(2) 阐明了氧、碳等元素对于钛合金力学性能的影响机制;发现稀土氢化物能够同时去除钛合金中氧、氯等元素,并能够使钛合金中β相均匀化。

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