严明 副教授 智能制造

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严明

副教授  

智能制造创新中心

E-mail:yanm@sustc.edu.cn


       严明博士主要科研方向为金属材料的3D打印(近期以钛合金为主,未来拓展到铝合金、钢等),其目标为在南科大建立一个有特点(人员构成、研究方向等方面)的3D打印实验室 以及为本科生、研究生服务的3D打印实验基地。此外,严明博士对于金属材料(钛、非晶态合金、铝)的粉末冶金,以及非晶态合金的开发与表征有一定程度的了解。

       严明博士著有英文书籍章节3篇,全部论文71篇,第一作者34篇。曾两次作为第一作者获得“ 年度最佳论文奖”(Best Paper Award, 2012 and 2013, byARC Centre of Excellence for Design in Light Metals),作为合作作者入选“最多次下载论文”一篇 (Most Downloaded Paper, 2013, by Journal of theMechanical Behavior of Biomedical Materials)。


研究内容:

钛合金粉末冶金;

钛合金 3D 打印的基础研究;

其它材料(铝合金、非晶态合金、氧化物陶瓷)的粉末冶金基础研究;

新型镍基、钛基高温合金3D打印用粉的研发与制备(开发高品质、新型、多种类高温合金材料;

优化增材制造用粉体制备技术;提供高品质、航空发动机 3D 打印高温合金用粉) 。


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

研究经历:

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 澳大利亚博士后奖学金 (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   中国 南方科技大学 副教授/研究员

荣誉和奖励:

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澳大利亚轻金属协会最佳论文奖(Best Paper Award (3rd Place)

2012昆士兰州青年学者奖学金 (Queensland Smart Future Fellow (Early Career)

2013澳大利亚轻金属协会最佳论文奖 (Best Paper Award (2nd Place)

2013日本振兴学会奖学金 (JSPS Fellowship (Invitation)

发表论文:

  • Scavenging of oxygen and chlorine from P/M titanium during sintering2016 (Book chapter) M. Yan, H.P. Tang, M. Qian,"Scavenging of oxygen and chlorine from P/M titanium during sintering" in Titanium Powder Metallurgy: Science, Technology and Applications, 2015, Editors: Ma Qian and Sam H Froes,Elsevier and Science Direct, ISBN: 978-0-12-800054-0, 2015. 

  • Microstructural characterization of P/M Ti and Ti alloys2016 (Book chapter) M. Yan,“Microstructural characterization of P/M Ti and Ti alloys” in Titanium Powder Metallurgy: Science, Technology and Applications, 2015, Editors: Ma Qian and Sam H Froes,Elsevier and Science Direct, ISBN: 978-0-12-800054-0, 2015. 

  • Densification, microstructure and mechanical property of additively manufactured Ti-6Al-4V: A comparative overview of  current status of selective laser melting (SLM), electron beam melting (EBM) and arc-welding based shaped metal deposition (SMD)2016 (Book      Chapter) M. Yan, P. Yu,Densification, microstructure and mechanical property of additively manufactured Ti-6Al-4V: A comparative      overview of current status of selective laser melting (SLM), electron beam melting (EBM) and arc-welding based shaped metal deposition (SMD), in Sintering of Materials, Arunachalam Lakshmanan (editor) InTech, ISBN 978-953-51-4113-6, 2015.

  • A transmission electron microscopy and 3D atom probe study of oxygen-induced fine2016 M. Yan, M.S. Dargusch, T. Ebel, M. Qian,A transmission electron microscopy and 3D atom probe study of oxygen-induced fine microstructural features in as-sintered Ti-6Al-4V and their impacts on ductility” Acta Materialia, 2014; 68: 196-206.

  • Impacts of trace carbon on the microstructure of as-sintered biomedical Ti-15Mo alloy and2016 M. Yan, M. Qian, C. Kong, M.S. Dargusch,Impacts of trace carbon on the microstructure of as-sintered biomedical Ti-15Mo alloy and reassessment of the maximum      carbon limitActa Biomaterialia, 2014; 10: 1014-1023.

  • Secondary phases and interfaces in a nitrogen atmosphere sintered Al alloy: Transmission2016 M. Yan, P. Yu, G.B. Schaffer, M. Qian,Secondary phases and interfaces in a nitrogen atmosphere sintered Al alloy: Transmission electron microscopy evidence for the formation of AlN during liquid phase sinteringActa Materialia, 2010, 58: 5667-5674.

  • TEM and XPS analysis of CaxCe1-xO2-y (x = 0.05 ~ 0.5) as electrolyte materials for solid2016 M. Yan, T. Mori, J. Zou, F. Ye, D.R. Ou, J. Drennan,TEM and XPS analysis of CaxCe1-xO2-y (x = 0.05 ~ 0.5) as electrolyte materials for solid oxide fuel cellsActa Materialia, 2009, 57: 722-731.

  • Effect of over-doped yttrium on the microstructure, mechanical properties and thermal2016 M. Yan, J. Zou, J. Shen, Effect of over-doped yttrium on the microstructure, mechanical properties and thermal properties of a Zr based metallic glass Acta Materialia, 2006, 54: 3627-3635.

  • In-situ synchrotron radiation to understand the  pathways for the scavenging of oxygen from2016 M. Yan, Y. Liu, G.B. Schaffer, M. Qian,In-situ synchrotron radiation to understand the pathways for the scavenging of oxygen from commercially pure CP-Ti and Ti-6Al-4V by yttrium hydrideScripta Materialia, 2013, 68: 63-66.

  • Simultaneous gettering of oxygen and chlorine      and homogenization of the ß2016 M. Yan, Y. Liu, Y.B. Liu, C. Kong, G.B.      Schaffer, M. Qian,Simultaneous gettering of oxygen and chlorine      and homogenization of the ß phase by rare earth hydride additions to a      powder metallurgy Ti-2.25Mo-1.5Fe alloyScripta Materialia, 2012, 67: 491-494.

  • In-situ TEM observation of unusual      nanocrystallization in a Ti-based bulk metallic glass2016 M. Yan, D.J.      Wang, J. Shen, M. Qian,In-situ TEM observation of unusual      nanocrystallization in a Ti-based bulk metallic glassScripta Materialia, 2011,      64: 701-704.

  • The influence of topological structure on bulk      metallic glass formation in Al-based metallic2016 M. Yan, S. Kohara, J.Q.      Wang, K. Nogita, G.B. Schaffer, M. Qian,The influence of topological structure on      bulk metallic glass formation in Al-based metallic glassesScripta Materialia, 2011,      65: 755-758.

  • The surface structure gas-atomized metallic      glass powders2016 M. Yan, P. Yu, K.B. Kim, J.K. Lee, G.B. Schaffer, M.      Qian,The surface structure gas-atomized metallic      glass powdersScripta Materialia, 2010, 62: 266-269.

  • In Situ Synchrotron Radiation Study of      TiH2-6Al-4V and Ti-6Al-4V: Accelerated Alloying and Phase Transformation,      and Formation of an Oxygen-Enriched Ti4Fe2O Phase in TiH2-6Al-4V2016 M.      Yan, M.S. Dargusch, C. Kong, J.A. Kimpton, S. Kohara, M. Brandt, M. Qian,In Situ Synchrotron Radiation Study of TiH2-6Al-4V      and Ti-6Al-4V: Accelerated Alloying and Phase Transformation, and      Formation of an Oxygen-Enriched Ti4Fe2O Phase in TiH2-6Al-4VMetallurgical and Materials Transactions      A   2015, 46A: 41-45.

  • Impurity (Fe, Cl, and P) induced grain boundary      and secondary phases in commercially pure2016 M. Yan, S.D. Luo, G. B.      Schaffer, M. Qian,Impurity (Fe, Cl, and P) induced grain boundary      and secondary phases in commercially pure titanium (CP-Ti)Metallurgical and      Materials Transactions A, 2013, 44: 3961-3969.

  • Micrometer-sized quasicrystals in the marginal      glass forming alloy Al85Ni5Y6Co2Fe22016 M. Yan, J.Q. Wang, C. Kong, G.B.      Schaffer, M. Qian,Micrometer-sized quasicrystals in the marginal      glass forming alloy Al85Ni5Y6Co2Fe2Journal of Materials Research, 2012, 27:      2131-2139.

  • Microstructure and mechanical property of      Ce1-xCaxO2-y (x = 0.05, 0.1, 0.2) with different2016 M. Yan, T. Mori, J.      Zou, H. Huang, J. Drennan,Microstructure and mechanical property of      Ce1-xCaxO2-y (x = 0.05, 0.1, 0.2) with different
         sintering temperatures
    Materials Today, 2011, 14: 24-30 (Republished      by Materials Today in its Hysitron Special Issue III; original publication      shown in the Journal of The European Ceramic Society, 2010, 30:669-675).

  • Grain growth condition affected densification      behaviour and conductivity property of Cadoped2016 M. Yan, T. Mori, J.      Zou, J. Drennan,Grain growth condition affected densification      behaviour and conductivity property of Cadoped CeO2 as electrolyte      material for IT-SOFCJournal of The American Ceramic Society, 2009,      92: 2745-2750.

  • Cooling rates effects on the microstructure of      a Zr-based bulk metallic glass2016 M. Yan, J. Shen, J.F. Sun, J. Zou,Cooling rates effects on      the microstructure of a Zr-based bulk metallic glassScience and Technology of      Advanced Materials, 2006, 7: 806-811.