赵明纯

教授 博士生导师

入职时间:2006-11-10

所在单位:材料科学与工程学院

学历:研究生(博士)毕业

办公地点:中南大学校本部米塔尔423

性别:男

联系方式:13975882319

学位:博士学位

在职信息:在职

主要任职:中南大学材料科学与工程学院教授、博士生导师、升华学者

毕业院校:中国科学院金属研究所

   

个人简介

赵明纯,中南大学材料科学与工程学院,男,汉族,1974年10月出生,湖南新化人。博士、教授、博士生导师、升华学者。电话:13975882319 (微信同号);Email: mczhao@csu.edu.cn; 123483193@qq.com

从1996年开始从事金属材料的研究和开发工作;在长沙矿山研究院(1996.7-1998.8),中国科学院金属研究所(1998.9-2004.3),日本国立物质结构材料研究所(NIMS)(2004.4-2006.6),澳大利亚昆士兰大学(2006.7-2009.1),瑞士联邦材料测试与开发研究所(EMPA)(2007.9-2008.3),中南大学材料科学与工程学院(2006.11-目前)等世界材料科学及材料加工领域的顶尖大学和研究所从事科学研究工作。

现在中南大学主要从事【极端环境服役高性能高品质金属材料的研发和构建】领域的研究,包括“新型可降解生物植入材料”、“新型抗菌生物植入材料”、“高性能矿山机械耐磨材料的热处理工艺与技术”、“高强钢的氢脆、氢致延迟断裂、疲劳性能”、“超高强钢的制备、关键控制工艺、以及组织和性能调控”等研究方向,与中国科学院金属研究所、澳大利亚昆士兰大学等国内外著名科研院所进行紧密的科研合作并就硕士生、博士生进行联合培养,与一些大中型企业联合开展关键工艺技术攻关,走产学研一体化良性发展道路。

一、学习经历

1.1992.09-1996.06 中南大学材料系,本科,获学士学位。

2.1998.09-2004.03 中国科学院金属研究所,硕博连读,获工学博士学位。

二、工作经历

1.1996.07-1998.08,助理工程师,在长沙矿山研究院从事钻具材料热处理的科研与生产工作。

2.2004.04-2006.06,特别研究员,日本国立材料研究所(NIMS)从事博士后科研工作。

3.2006.07-2009.01,高级研究员,澳大利亚昆士兰大学从事科研工作。

4.2007.09-2008.03,高级研究员,瑞士联邦理工联邦材料测试与开发研究所(EMPA)从事科研工作。

5.2006.11-目前,教授,博导,升华学者,2006年11月被中南大学作为海外高层次人才引进,教授、博导;2008年11月,“升华学者”。

三、学术兼职

1.Metall Mater Trans A、Mater Sci Eng A、J. Mater Sci Tec、J. Alloys Compounds、Mater. Res. Bulletin、Scripta Mater、Adv. Eng. Mater.、Corro.Sci.、J. Magnes. Alloy、北京科技大学学报、钢铁学报、材料研究学报、金属学报等国内外著名材料期刊的特邀评审员。

2.中国科学院金属研究所合金钢课题组客座研究员。

3.澳大利亚昆士兰大学材料系腐蚀研究中心客座教授。

4.日本铁钢学会、日本金属学会、澳洲轻合金研究中心等国际学术组织会员。

5.SCI英文期刊Materials的编委。

四、学术成果

在学术理论和技术研发方面主要成果如下:

1. 入选全球前0.2%顶尖科学家榜单“终身科学影响力排行榜”。

2.入选全球顶尖前10万科学家排名榜。

3. 近年来以第一或通讯作者发表的国际英文SCI权威或重要期刊100多篇。

4. 近年来以第一作者或通讯作者发表的论文被SCI引用次数高达5000多次,第一作者的H-index上30,为所在领域高H-index的科研工作者之一。

5. 近年来以第一作者发表的论文(截至2022年6月)单篇ESI引用次数上百次的有10篇,单篇ESI引用次数上五十次的有近20篇,为所在领域最受关注和引用的科研工作者之一,单篇最高引用次数超过500次。是多个国内外Ei和Sci期刊的编委。

6. 近年来承担或参与十多项省部项目、国家项目、或产学研重大研发项目。研发能力广受认可,近三年主持的科研项目经费超过一千万元。

7. 将多年的科研成果成功的进行产业化实践,成功的研发出深受用户欢迎的高性能钻具和耐磨材料产品,走产学研一体化良性发展道路。

五、获奖情况

1.  2018年度湖南省自然科学奖二等奖。

2.  骨干参与的新一代钢铁材料重大基础研究项目(973超级钢项目)获2004年度国家科技进步一等奖;

3.  2003年度师昌绪一等奖;

4.  2003年度中国科学院院长优秀奖;

5.  2001年度中国科学院刘永龄一等奖;

6.  2001年度中信微合金化技术中心优秀论文奖;

      7.  2001年度师昌绪一等奖

六、在研科研项目情况 

1.川藏线高强高塑低DBTT钎具的研发及应用,主持,600万。

2.高等级硬质合金强力钻头的研发及应用,主持,300万。

3.高吸能、抗冲击和耐疲劳镁合金的开发及其疲劳与蠕变三维各向异性研究,国际合作重点研发-子课题负责人,350万。


附录:

I. 最近五年(2017-2021)本人的研究生第一作者、本人第二或通讯作者,以及本人第一作者发表的代表性SCI检索的JCR一区或二区论文

1.   Corrosion and antibacterial performance of novel selective-laser-melted (SLMed) Ti-xCu biomedical alloys, Journal of Alloys and Compounds, Volume 864,158415, 2021,影响因子5.316JCR一区。

2.   Biodegradation, Antibacterial Performance, and Cytocompatibility of a Novel ZK30-Cu-Mn Biomedical Alloy Produced by Selective Laser Melting, International Journal of Bioprinting, Volume7 (1), 78-89, 2021,影响因子6.638JCR一区。

3.   Microstructure evolution and texture tailoring of reduced graphene oxide reinforced Zn scaffoldBioactive Materials Volume6, 1230-1241 2021,影响因子14.593JCR一区。

4.   Comparison on Tensile Characteristics of Plain C-Mn Steel with Ultrafine Grained Ferrite/Cementite Microstructure and Coarse Grained Ferrite/Pearlite Microstructure, Materials,Volume14 (9), 2309, 2021,影响因子3.623JCR一区。

5.   Comparison of the biodegradation of ZK30 subjected to solid solution treating and selective laser melting, Journal of Materials Research and Technology-JMR&T, Volume10, 722-729, 2021,影响因子5.039JCR一区。

6.   In Vitro Corrosion Resistance and Antibacterial Performance of Novel Fe-xCu Biomedical Alloys Prepared by Selective Laser Melting, Advanced Engineering Materials, Volume23 (4), 2021,影响因子3.862JCR二区。

7.   Study on a Novel Biodegradable and Antibacterial Fe-Based Alloy Prepared by Microwave Sintering, Materials, Volume14 (14), 3784, 2021,影响因子3.623JCR一区。

8.   Biodegradation behaviour of hydroxyapatite-containing self-sealing micro-arc-oxidation coating on pure Mg, Surface Engineering, Volume37 (7), 942-952, 2021,影响因子3.169JCR二区。

9.   In Situ Observation of the Degradation Behavior and the Systematic Investigation of Corrosion Mechanism in AZ31 Alloy, Advanced Engineering Materials, Volume23, 21003962021,影响因子3.862JCR二区。

10.  Influence of graphene oxide (GO) on microstructure and biodegradation of ZK30-xGO composites prepared by selective laser melting, Journal of Magnesium and Alloys, Volume8 (3), 952-962, 2020,影响因子10.088JCR一区。

11.   Effect of Alloying Mn by Selective Laser Melting on the Microstructure and Biodegradation Properties of Pure Mg, Metals, Volume10 (11), 1527, 2020,影响因子2.351JCR二区。

12.  Microstructural evolution upon heat treatments and its effect on corrosion in Al-Zn-Mg alloys containing Sc and Zr, Journal Of Materials Research And Technology-JMR&T, Volume9, 5077-5089, 2020,影响因子5.039JCR一区。

13.   Corrosion behavior of a self-sealing coating containing CeO2 particles on pure Mg produced by micro-arc oxidation, Surface & Coatings Technology, Volume386, 125456, 2020,影响因子4.158JCR一区。

14.   Study on Fe-xGO Composites Prepared by Selective Laser Melting: Microstructure, Hardness, Biodegradation and Cytocompatibility, Jom, Volume72 (3),1163-1174, 2020,影响因子2.471JCR二区。.

15.   Evolution of microstructure and texture for an Al-0.4 Er alloy during accumulative roll bondingJournal of Alloys and Compounds, Volume811,152005, 2019,影响因子5.316JCR一区。

16.   Improvement of biodegradable and antibacterial properties by solution treatment and micro-arc oxidation (MAO) of a magnesium alloy with a trace of copper, Corrosion Science, Volume156, 125-138, 2019,影响因子7.205JCR一区。

17.   Formation and characteristic corrosion behavior of alternately lamellar arranged alpha and beta in as-cast AZ91 Mg alloy, Journal of Alloys and Compounds, Volume770, 549-558, 2019,影响因子5.316JCR一区。

18.   Improved biodegradation resistance by grain refinement of novel antibacterial ZK30-Cu alloys produced via selective laser melting, Materials Letters, Volume237, 253-257, 2019,影响因子3.423JCR二区。

19.   Effect of grain refinement and crystallographic texture produced by friction stir processing on the biodegradation behavior of a Mg-Nd-Zn alloy, Journal of Materials Science & Technology, Volume35, 777-783, 2019,影响因子8.067JCR一区。

20.   Ultra-high cycle fatigue behavior of a novel 1.9 GPa grade super-high-strength maraging stainless steel, Materials Science and Engineering A, Volume755, 50-56, 2019,影响因子5.234JCR一区。

21.   Graphene Oxide Reinforced Iron Matrix Composite With Enhanced Biodegradation Rate Prepared by Selective Laser Melting, Advanced Engineering Materials, Volume21, 1900314, 2019,影响因子3.862JCR二区。

22.   Influence of Tempering Temperature on the Microstructure and Mechanical Properties of a Cr-Ni-Mo-Alloyed Steel for Rock Drill Applications, Steel Research International, Volume90, 1900297, 2019,影响因子2JCR二区。

23.   Biodegradation Behavior of Coated As-Extruded Mg-Sr Alloy in Simulated Body Fluid, Acta Metallurgica Sinica-English Letters, Volume32, 1195-1206, 2019,影响因子2.755JCR一区。

24.   Hot Deformation Behavior of a New Nuclear Use Reduced Activation Ferritic/Martensitic Steel, Acta Metallurgica Sinica-English Letters, Volume32, 825-834, 2019,影响因子2.755JCR一区。

25.   Designing a high Si reduced activation ferritic/martensitic steel for nuclear power generation by using Calphad method, Journal of Materials Science & Technology, Volume 35, 266-274, 2019,影响因子8.067JCR一区。

26.  Corrosion and biological performance of biodegradable magnesium alloys mediated by low copper addition and processinMaterials Science and Engineering C, Volume93, 565-581, 2018,影响因子7.328JCR一区。

27.  Microstructure, biodegradation, antibacterial and mechanical properties of ZK60-Cu alloys prepared by selective laser melting technique, Journal of Materials Science & Technology, Volume 34, 1944-1952, 2018,影响因子8.067JCR一区。

28.  Characteristic constitution model and microstructure of an Al-3.5Cu-1.5Li alloy subjected to thermal deformationMaterials CharacterizationVolume 145, 53-64, 2018,影响因子4.342JCR一区。

29.  Influence of hybrid extrusion and solution treatment on the microstructure and degradation behavior of Mg-0.1Cu alloyMaterials Science and Engineering B, Volume229, 105-117, 2018,影响因子4.051JCR二区。

30.  Lanthanum-Containing Magnesium Alloy with Antitumor Function Based on Increased Reactive Oxygen SpeciesApplied Sciences-BaselVolume8, 2109, 2018,影响因子2.679JCR二区。

31.  Creep behaviors of hot compressed Mg-4Y-2Nd-0.2Zn-0.5Zr alloy with and without agingMaterials Science and Engineering A, Volume708, 460-468, 2017,影响因子5.234JCR一区。

32.  Rare Earth Element Yttrium Modified Mg-Al-Zn Alloy: Microstructure, Degradation Properties and HardnessMaterials, Volume10, 477, 2017,影响因子3.623JCR一区。

33.  Biodegradation Resistance and Bioactivity of Hydroxyapatite Enhanced Mg-Zn Composites via Selective Laser Melting Materials, Volume10, 307, 2017,影响因子3.623JCR一区。

34.  Mechanical reinforcement of bioceramics scaffolds via fracture energy dissipation induced by sliding action of MoS2 nanoplateletsJournal of the Mechanical Behavior of Biomedical MaterialsVolume75, 423-433, 2017,影响因子3.902JCR二区。

35.  Microstructure Evolution and Biodegradation Behavior of Laser Rapid Solidified Mg-Al-Zn AlloyMetalsVolume7, 105, 2017,影响因子2.351JCR二区。

36.  Parameter optimisation and microstructural characterisation of pulsed electric current bonded Al6061-SS304 jointsScience and Technology of Welding and Joining Volume21, 216-222, 2017,影响因子4.564JCR一区。

II 2012年前本人第一作者发表的部分代表性SCI检索的JCR一区或二区论文

1. Ming-Chun Zhao, Schmutz Patrik, Brunel Samuel, Ming Liu, Guang-Ling Song, Andrej Atrens, An exploratory study of the corrosion of Mg alloys during interrupted salt spray testing, Corrosion Science, vol. 51, 1277-1292, 2009.

2. Ming-Chun Zhao, Yun-Lai Deng, Xing-Ming Zhang. Strengthening and Improvement of Ductility without Loss of Corrosion Performance in a Magnesium Alloy by Homogenizing Annealing, Scripta Materialia, vol.58, 560-563, 2008.

3. Ming-Chun Zhao, Ming Liu, Guang-Ling Song, Andrej Atrens, Influence of Distribution of Second b phase on Corrosion Behavior of AZ91 Magnesium Alloy in Sodium Chloride, Corrosion Science, Corrosion Science, vol.50, 1939, 2008.

4. Ming-Chun Zhao, Ming-Liu, Guang-Ling Song, Andrej Atrens, Influence of pH and Chloride Ion Concentration on Corrosion of Magnesium Alloy ZE41, Corrosion Science, vol.50, vol.50, 3168-3178, 2008.

5. Ming-Chun Zhao, Fuxing Yin, Toshihiro Hanamura, Hai Qiu, Kotobu Nagai, Andrej Atrens. Relationship between yield strength and grain size for a bimodal structural ultrafine-grained ferrite/cementite steels, Scripta Materialia, vol.57 (9), 857-860, 2007.

6. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Kotobu Nagai, Ke Yang. Dependence of strength and strength-elongation balance on the volume fraction of cementite particles in ultrafine grained ferrite/cementite steels, Scripta Materialia, vol.54 (7), 1385-1389, 2006.

7. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Kotobu Nagai, Ke Yang. Grain growth and Hall-Petch relation in dual-sized ferrite/cementite steel with nano-sized cementite particles in a heterogeneous and dense distribution, Scripta Materialia, vol.54 (6), 1193-1197, 2006.

8. Ming-Chun Zhao, Ke Yang. Strengthening and improvement of sulfide stress cracking resistance in acicular ferrite pipeline steels by nano-sized carbonitrides, Scripta Materialia, Vol.52 (9), 881-886, 2005.

9. Ming-Chun Zhao, Huang Xiao-Fang, Atrens AndrejRole of second phase cementite and martensite particles on strength and strain hardening in a plain C-Mn steel,Materials Science and Engineering A, vol.549, 222-227, 2012.

10. Ming-Chun Zhao, Xiao-Fang Huang, Jing-Li Li, Tian-Yi Zeng, Ying-Chao Zhao, Andrej AtrensStrength and toughness tradeoffs for an ultrafine-grain size ferrite/cementite steel produced by warm-rolling and annealingMaterials Science and Engineering A, vol.528, 8157-8168, 2011.

11. Ming-Chun Zhao, Jing-Li Li, Tian-Yi Zeng, Huang Xiaofang, Ying-Chao Zhao, Andrej AtrensThe ductile to brittle transition for C-Mn steel with an ultrafine grain ferrite/cementite microstructureMaterials Science and Engineering A, vol.528, 7228-7237, 2011.

12. Ming-Chun Zhao, Tian-Yi Zeng, Jing-Li Li, Huang Xiaofang, Ying-Chao Zhao, Andrej AtrensIdentification of the effective grain size responsible for the ductile to brittle transition temperature for steel with an ultrafine grain size ferrite/cementite microstructure with a bimodal ferrite grain size distributionMaterials Science and Engineering A, vol.528, 4217-4221, 2011.

13. Ming-Chun Zhao, Ming Liu, Andrej Atrens, Yi-Yin Shan, Ke Yang. Effect of Applied Stress and Microstructure on Sulfide Stress Cracking Resistance of Pipeline Steels Subject to Hydrogen Sulfide, Materials Science and Engineering A, vol.478 (1-2), 43-47, 2008.

14. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Ke Yang. Lath boundary thin-film martensite in acicular ferrite ultralow carbon pipeline steels, Materials Science and Engineering A, Vol. 395A (1-2), 327-332, 2005.

15. Ming-Chun Zhao, Ke Yang, Fu-Ren Xiao, Yi-Yin Shan. Continuous cooling transformation of undeformed and deformed low carbon pipeline steels, Materials Science and Engineering A, Vol. 355A (1-2), 126-136, 2003.

16. Ming-Chun Zhao, Ke Yang, Yiying Shan. The effects of thermo-mechanical control process on microstructures and mechanical properties of a commercial pipeline steel, Materials Science and Engineering A, Vol. 335 (1-2), 14-20, 2002.

17. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Ke Yang. Low absorbed energy ductile dimple fracture in lower shelf region in an ultrafine grained ferrite/cementite steel, Metallurgical and Materials Transactions A, vol.37 (9), 2897-2990, 2006.

18. Ming-Chun Zhao, Toshihiro Hanamura, Fuxing Yin, Hai Qiu, Kotobu Nagai. Formation of Bimodal-Sized Structure and its Tensile Properties in a Warm-Rolled and Annealed Ultrafinegrained Ferrite/Cementite Steel,Metallurgical and Materials Transactions A, vol.39 (7), 2008, 1691-1701.

19. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Ke Yang. Microstructural Evolution of Submicron Sized Ferrite in Bimodal Structural Ultrafine Grained Ferrite/Cementite Steels by Annealing below Austenized Temperature, Metallurgical and Materials Transactions A, vol.37 (5), 1657-1664,  2006.

20. Ming-Chun Zhao, Ke Yang. Effects of Nano-sized Microalloyed Carbonitrides and High-density Pinned Dislocations on Sulfide Stress Cracking Resistance of Pipeline Steels, Journal of Materials Research, Vol. 20 (9), 2248-2251, 2005.

21. Ming-Chun Zhao, Bei Tang, Yi-Yin Shan, Ke Yang. Role of microstructure on sulfide stress cracking of oil and gas pipeline steels, Metallurgical and Materials Transactions A, Vol. 34A (5), 1089-1096, 2003.

22. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Ke Yang. Precipitation of Carbonitrides and Their Strengthening upon Non-quench Aging for Micro-alloyed Acicular Ferrite Pipeline Steels, Materials Transactions, Vol.46 (4), 784-789, 2005.

23. Ming-Chun Zhao, Li Jing-Li, Zhao Ying-Chao, Huang Xiao-Fang, Li Jin-Zhu, Atrens AndrejA Novel Heat Treatment for Excavator Dipper Teeth Manufactured from Low-Carbon Low-Alloy Steel, Steel Research International, vol.84,89-932013.

24. Ming-Chun Zhao, Ming-Liu, Guang-Ling Song, Andrej Atrens, Influence of Homogenization Annealing of AZ91 on Mechanical Properties and Corrosion Behavior, Advanced Engineering Materials, vol.10, 93-103, 2008.

25. Ming-Chun Zhao, Ming-Liu, Guang-Ling Song, Andrej Atrens, Influence of Microstructure on Corrosion of As-cast ZE41, Advanced Engineering Materials, vol.10, 104-111, 2008.

26. Ming-Chun Zhao, Toshihiro Hanamura, Hai Qiu, Kotobu Nagai, Yi-Yin Shan and Ke Yang. Difference in the role of non-quench aging on mechanical properties between acicular ferrite and ferrite-pearlite pipeline steels, ISIJ International, Vol.45 (1), 116-120, 2005.

27. Ming-Chun Zhao, Yi-Yin Shan, Ke Yang. Effect of aging treatment on mechanical property and H2S resistant behavior of acicular ferrite pipeline steels, Acta Metall Sin, Vol.40 (9), 948-954, 2004.

28. Ming-Chun Zhao, Yi-Yin Shan, Fu-Ren Xiao, Ke Yang. Acicular ferrite formation during hot plate rolling for pipeline steels, Mater. Sci. Technol., Vol. 19 (3), 355-359, 2003.

29. Ming-Chun Zhao, Fu Ren Xiao, Yi-Ying Shan, Yu Hai Li, Ke Yang. Microstructural characteristic and toughening of an ultralow carbon acicular ferrite pipeline steel, Acta Metall Sin, Vol.38 (3), 283-287, 2002.

30. Ming-Chun Zhao, Yi-Ying Shan, Yu Hai Li, Ke Yang. Effect of microstructure on sulfide stress corrosion cracking of pipeline steels, Acta Metall Sin, Vol.37 (10), 1087-1092, 2001.

31. Ming-Chun Zhao, Yi-Ying Shan, Jin-bo Qu, Fu-Ren Xiao, Yong Zhong, Ke Yang. Acicular ferrite formation in a pipeline steel with thermo-mechanical control process, Acta Metall Sin, Vol.37 (8), 820-824, 2001.

32. Ming-Chun Zhao, Yi-Ying Shan, Jin-bo Qu, Ke Yang, Shan Gao, Lei Zhen. Effect of thermo mechanical control process on microstructures and mechanical properties of X60 pipeline steel, Acta Metall Sin, Vol.37 (2), 179-183, 2001.

33. Ming-Chun Zhao, Ke Yang, Yi-Yin Shan. Comparison on strength and toughness behaviors of microalloyed pipeline steels with acicular ferrite and ultrafine ferrite, Materials Letters, Vol.57 (9-10), 1496-1500, 2003.

34. Ming-Chun Zhao, Yi-Ying Shan, Fu Ren Xiao, Ke Yang, Yu Hai Li. Investigation on the H2S-resistant behaviors of acicular ferrite and ultrafine ferrite, Materials Letters, Vol. 57 (1), 141-145, 2002.


教育经历

[1]   1998.9-2003.10

中科院金属所 博士  |  博士研究生毕业

[2]   2004.4-2006.7

日本国立物质结构材料研究所 博士研究生毕业

[3]   1992.9-1996.6

中南大学 学士  |  大学本科毕业

工作经历

[1]   2006.11-至今

中南大学材料科学与工程学院  |  教授,博导,升华学者

[2]   2007.9-2008.3

瑞士联邦理工联邦材料测试与开发研究所(EMPA)  |  高级研究员

[3]   2006.7-2009.1

澳大利亚昆士兰大学  |  高级研究员

[4]   2004.4-2006.6

日本国立材料研究所(NIMS)  |  特别研究员

[5]   1996.7-1998.8

长沙矿山研究院  |  助理工程师

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