smse.sjtu.edu.cnsmse.sjtu.edu.cn/upload/2014102914227416.docx · Web view8.Jun Shu, Hongyun Bi, Xin Li, Zhou Xu, The effect of copper and molybdenum on pitting corrosion and stress

导师姓名 陈小奇

研究方向 精密材料成型，自主机器人系统

联系方式

上海交大材料学院，东川路 800 号，上海邮政编码：200240

联系电话：+64 3 366 2987 分机 7221

Email: [email protected]

个人简介

陈小奇，博士，新西兰专业工程师协会会士，2013 年入选国家第九批“千人计划”，现任坎特伯雷（Canterbury）大学工程学院教授,

坎特伯雷大学机械电子与机器人实验室主任。1963 年 11 月 10 日出生于安徽省安庆市，1984 年毕业于华南理工大学机械工程系，1986

年获得英国布鲁耐尔(Brunel)大学材料工程硕士学位，1989 年获得英国利物浦(Liverpool)大学博士学位。1989-1992 先后在杜伦(Durham)大学和布鲁耐尔大学任研究员。1992-2006 在新加坡制造技术研究所任高级研究员、资深科学家、先进材料加工部门主任，并在新加坡国立大学兼任副教授。开创性地将人工智能技术、模糊神经网络、视觉感知、多渠道信息融合用于智能机器人焊接，成功地解决了精密焊接遇到的溶深控制，动态过程控制，及实时跟踪的难题。在飞机发动机部件的恢复和制造领域, 首次提出了基于知识、在线补偿和传感控制的方法，解决了航空修复和制造自动化因三维曲面的大变形、高温合金极差的可加工性、严重的刀具磨损以

及严格的修复精度等遇到的技术瓶颈，形成了叶片变形的三维自由曲面焊接和打磨自动化的关键技术，成功研制了飞机发动机涡轮叶片三维打磨自动化系统，获得 1999 年新加坡国家科技奖。在自主移动机器人研究领域，首次开发无拴线强吸附力爬壁装置，适于不同材料和状况的表面爬壁机器人。这项技术突破为研制可用性和通用性强的爬壁机器人奠定了理论基础并提供了设计指南。因此创建了倒置机器人有限公司(Invert Robotics Limited)，荣获 2009 年新西兰贸易与企业协会创业奖、2012 年新西兰科技创新部起步公司优秀奖。出版专著 2 部，申请专利 8项，发表文章 200余篇。获得美国机械工程师协会第三届国际机电及钳入式系统和应用会议（2007）和第四届亚洲国际机电一体化会议（2010）最佳论文奖。

代表性论著

1. Chen, X.Q., Chen Y.Q., Chase, J.G. (2009), Mobile Robots - State of the Art in Land, Sea, Air, Collaborative Missions, ISBN 978-953-307-001-8, I-Tech Education and Publishing, Vienna, Austria, 335 pages, May 2009, DOI: 10.5772/120.

2. Chen, X.Q., Devanathan, R. & Fong, A.M. (2002), Advanced Automation Techniques in Adaptive Material Processing, ISBN 981-02-4902-0, World Scientific, Singapore, 302 pages, 2002.

3. Asgari. H., Chen. X.Q., Menhaj, M.B., Sainudiin, R. (2013) “Artificial Neural Network Based System Identification for a Single-Shaft Gas Turbine”, Journal of Engineering for Gas Turbines and Power,135(9), 092601 (Jul 31, 2013) (7 pages), doi:10.1115/1.4024735

4. Shamsudin, S.S., and Chen X.Q. (2012) “Identification of an unmanned helicopter system usingoptimised neural network structure”, International Journal of Modelling, Identification and Control, Vol. 17, No.3, 2012, pp.223-241.

5. Ou, Q., Chen, X.Q., Gutschmidt, G., Wood, A., Leigh, N., and Arrieta, A.F. (2012) “An Experimentally Validated Double-mass Piezoelectric Cantilever Model for Broadband Vibration-based Energy Harvesting", the Journal of Intelligent Material Systems and Structures. doi: 10.1177/1045389X11431746. January 2012, Vol. 23 no. 2, pp.117-126.

6. Chen, X.Q., Li, H.Z. (2009) “Development of a Tool Wear Observer Model for On-Line Tool Condition Monitoring and Control in Machining Nickel-Based Alloys”, International Journal of Advanced Manufacturing Technologies. ISBN 0268-3768 (Print) 1433-3015 (Online), DOI 10.1007/s00170-009-2003-1, Vol. 45, No. 7-8, pp. 786-800.

7. Chen, X.Q., Lin, W.J., Ng, T.J. (2009) “Neutral Line Based Tool Path Extrapolation for Adaptive Machining of Edge Welds of Turbine Blades”, Special Issue “Advanced Manufacturing Technology”, International Journal of Manufacturing Research, 2009: Vol. 4, No. 2, 2009, pp. 236-251.

8. Chen, X.Q., Chase, J.G., Mulligan, K.J., Rodgers, G.W., Mander, J.B.(2008) “Novel Controllable Semi-Active Devices for Re-shaping Structural Response”, IEEE Transactions of Mechatronics, ISSN1083-4435, Vol. 13 No.6, pp. 647-657, Dec 2008.

9. Luo, H., Chen, X.Q. (2005), “Laser visual sensing for seam tracking in robotic arc welding of titanium alloys”, The International Journal of Advanced Manufacturing Technology, Springer London, ISSN 0268-3768 (Print) 1433-3015 (Online), Vol. 26, No. 9-10, pp. 1012-1017, Oct 2005.

10. Huang, H., Gong, Z.M., Chen, X.Q., Zhou, L.B. (2002) “Robotic grinding/polishing for turbine vane overhaul”, Journal of Materials Processing Technology, 127 (2002), pp. 140-145.

导师姓名

邬剑波

照片研究方向

金属基复合催化材料，原位电镜技术在材料生长及催化反应的表征与监控

联系方式

通讯地址：上海交通大学材料科学与工程学院邮政编码：200240

个人简 邬剑波，男，1982 年生，上海交通大学材料科学与工程学院研究

介

员，博士生导师。2005 年和 2007 年于浙江大学材料系获得学士和硕 士 学 位 。 2012 年 于美国罗切斯特 大 学 化 工 系 获 得 博 士 学位。2012 年至 2014 年在美国伊利诺里大学香槟分校（UIUC）材料系从事博士后工作。2013 年入选“青年千人计划”。多年从事于材料成分结构设计与制备，擅长是表面化学催化反应相关的催化剂表面结构和成分的控制，及其与表面相关的催化反应机理和原位表征的 研 究 。 在本领 域 的世界顶级杂志，包括 Acc. Chem. Res.,

Chem. Soc. Rev., J. Am. Chem. Soc., Nano Lett., Adv. Mater., Chem.

Mater., Chem. Comm., J. of Mater. Chem., 和 Nano Res.等发表 30篇高水平论文， 引用达 1500 多次。单篇最高引用达 240 次，平均影响因子 7.12，影响因子 > 9 的有 8 篇（其中一篇工作被 Nature 的一篇综述报道），拥有了 6项国内国际专利及专利申请。

代表性论著

1. J. B. Wu, H. Yang, Platinum-based oxygen reduction catalysts, Acc. Chem. Res., 2013, 46, 1848-1857.

2. W. Zhou, J. B.Wu, H. Yang, Highly uniform platinum icosahedra made by the hot injection-assisted GRAILS method, Nano Lett., 2013, 13, 2870-2874.

3. J. B. Wu, P. P. Li, Y.-T. Pan, S. Warren, X. Yin, H. Yang, Surface lattice-engineered bimetallic nanoparticles and their catalytic properties, Chem. Soc. Rev., 2012, 41, 8066-9074.

4. J. B. Wu, L. Qi, H. J. You, A. Gross, J. Li, H. Yang, Icosahedral platinum alloy nanocrystals with enhanced electrocatalytic activities, J. Am. Chem. Soc., 2012, 134, 11880-11883.

5. J. B. Wu, A. Gross, H. Yang, Shape and composition controlled platinum alloy nanocrystals using carbon monoxide as reducing agent, Nano Lett., 2011, 11, 798-802.

6. J. B. Wu, J. L. Zhang, Z. M. Peng, S. C. Yang, F. T. Wagner, H. Yang, Truncated octahedral Pt3Ni ORR electrocatalysts, J. Am. Chem. Soc., 2010, 132, 4984-4985.

7. Z. M. Peng, H. J. You, J. B. Wu, H. Yang, Electrochemical synthesis and catalytic property of sub-10 nm platinum cubic nanoboxes, Nano Lett., 2010, 10, 1492-1496.

8. Z. M. Peng, J. B. Wu, H. Yang, Synthesis and oxygen reduction electrocatalytic property of platinum hollow and platinum-on-silver nanoparticles, Chem. Mater, 2010, 22, 1098-1106.

导师姓名 毕洪运

研究方向汽车排气系统用不锈钢合金设计及关键使用技术研究；汽车用超高强不锈钢合金设计及关键使用技术研究；汽车用不锈钢失效机制及评价方法研究等

联系方式通讯地址：上海市长江路 580 号宝钢中央研究院不锈钢技术中心邮编：200431 联系电话：26034614

Email: [email protected]

个人简介 1966 年 7 月生，山东威海人，教授级高级工程师，博导，宝钢集团技术业务专家，宝钢集团中央研究院首席研究员，上海市金属学会会员。1999 年毕业于中国科学院金属研究所获工学博士学位。2000 年 10

月至 2002 年 9 月于日本东北大学从事博士后研究工作，2002 年 10 月回国进入宝钢股份研究院从事钢铁新产品开发及使用技术研究工作。在宝钢期间负责主持、参加并完成公司级项目 10余项，目前负责公司级科研大项目“汽车专用不锈钢产品开发及关键使用技术研究”。主要研究方向包括： 1.汽车排气系统用不锈钢合金设计及关键使用技术研究;2.汽车用超高强不锈钢合金设计及关键使用技术研究;3.汽车用不锈钢失效机制及评价方法研究等。相关研究工作与国内外知名汽车主机厂、汽车零部件总成厂等制造单位保持良好的合作关系。申请受理专利 33项，其中已授权 22

项。相关专利荣获国际及国家发明专利奖各一项，上海市专利发明金奖三项。申请并认定企业技术秘密 12项。作为项目负责人，相关研究成果荣获中国钢铁工业协会（中国金属学会）技术进步奖二等奖一项、宝钢重大

创新成果奖一等奖一项，中信铌钢技术进步奖一等奖一项；获得山西省技术进步三等奖一项（排名第二）；相关新产品获上海市高新技术成果转化认定项目 2项（5项产品）；发表论文约 40篇，其中 SCI收录 16篇。

代表性论著

1.H.Y.Bi, H. Kokawa, Zhanjie Wang, M. Shimada, Y. Sato, Suppression of chromium depletion by grain boundary structural change during twin-induced grain boundary engineering of SUS304 stainless steel, Scripta Materialia,49(2003)219-223;2.H.Y.Bi, Z.J.Wang, M.Shimada, H.Kokawa, Electron microscopic observation of grain boundary in thermomechanical-processed SUS304 stainless steel, Materials Letters, 57(2003)2803-2806;3.H.Y.Bi, Z.J.Wang, Wear of medium carbon steel in the presense of Nd-Fe-B permanent magnetic field, Materials Letters, 57(2003)1752-1755;4.Haitao Yan, Hongyun Bi, Xin Li, Zhou Xu, Microstructure and texture of Nb+Ti stabilized ferritic stainless steel,Materials characterization 59 ( 2008 ) 174-1746;5.Haitao Yan, Hongyun Bi, Xin Li, Zhou Xu, Effect of two-step cold rolling and annealing on texture, grain boundary character distribution and r-value of Nb+Ti stabilized ferritic stainless steel, Materials characterization 60 ( 2009 ) 65- 68;6.Haitao Yan, Hongyun Bi, Xin Li, Zhou Xu, Microstructure, texture and grain boundaries character distribution evolution of ferritic stainless steel during rolling process, journal of materials processing technology 209 ( 2009 ) 2627-2631;7.Haitao Yan, Hongyun Bi, Xin Li, Zhou Xu, Precipitation and mechanical properties of Nb-modified ferritic stainless steel during isothermal aging,Materials characterization 60 ( 2 009 ) 204-209;8.Jun Shu, Hongyun Bi, Xin Li, Zhou Xu, The effect of copper and molybdenum on pitting corrosion and stress corrosion cracking behavior of ultrapure ferritic stainless steel，Corrosion Science 57（2012)89-98;9.Jun Shu, Hongyun Bi, Xin Li, Zhou Xu, Effect of Ti addition on forming limit daigrams of Nb-bearing ferritic stainless steel ， Journal of materials processing technology212（2012）59-65;10.Jun Shu, Hongyun Bi, Xin Li, Zhou Xu, The effects of molybdenum addition on high temperature oxidation behavior at 1000 of Type 444 ferritic stainless steel℃ ，Oxid. Met., 78(2012)253-267;11.P.H. Han, Z.H. Xu, C.P. Wang, M.C. Li , H.Y. Bi, Condensate corrosion behavior of type 409 stainless steel in simulated automotive muffler environments , Int. J. Electrochem. Sci., 9 (2014) 3784-3794;12. M.C. Li, H. Zhang, R.F. Huang, S.D. Wang, H.Y. Bi, Effect of SO2 on oxidation of type 409 stainless steel and its implication on condensate corrosion in automotive mufflers, Corrosion Science 80 (2014) 96-103;13.T Liu, L, Chen, H, Bi, X. Che, Effect of Mo on high-temperature fatigue behavior of 15CrNbTi ferritic stainless steel, Acta Metall. Sin.(Engl. Lett.)2014,27(3),452-457;14.X. Li, J. Shu, L. Chen, H. Bi, Effect of Cerium on high-temperature oxidation resistance

of 00Cr17NbTi ferritic stainless steel, Acta Metall. Sin.(Engl. Lett.)2014,27(3),501-507

导师姓名 储双杰

研究方向 复合材料、钢铁制造

联系方式 021-26645566

个人简介

1987 年毕业于安徽工程大学机械系热加工专业，1990 年获得西北工业大学材料科学与工程系硕士研究生学位，1996 年获得上海交通大学材料科学系复合材料专业博士研究生学位，2009 年获得中欧国际工商学院EMBA 硕士学位。在钢铁生产制造、技术管理等方面有丰富的经验。加入宝钢后，先后担任宝钢冷轧厂工程师，冷轧部硅钢分厂副厂长、厂长，冷轧厂副厂长、厂长，硅钢部部长，宝钢分公司总经理助理兼硅钢部部长，宝钢股份总经理助理兼硅钢部部长，宝钢股份总经理助理兼冷轧厂厂长，宝钢股份总经理助理，宝钢股份副总经理。

代表性论著

1、TRIP钢热镀锌可镀性研究进展[J]. 表面技术,2012,(1).

2、结晶器铜板热喷涂技术的研究进展[J]. 材料导报,2010,(S2).

3、硅钢水溶性极厚绝缘涂层的热老化行为研究[J]. 表面技术,2011,(4).

4、稀土 La对热镀锌层耐蚀性能的影响[J]. 腐蚀与防护,2011,(7).

5、Fe-3Si 合金高温退火氮的均匀化过程[J]. 钢铁研究学报,2010,(4).

6、鞠辰,储双杰,孙宝德,王俊,张全成. 镀铝锌带钢彩涂板漏涂缺陷表征与

分析[J]. 材料保护,2007,(4).

7、生产工艺参数对无取向电工钢磁性的影响[J]. 特殊钢,2003,(2).

8、挤压铸造颗粒增强金属基复合材料过程中液态金属浸渗和传热行为的分析[J]. 上海交通大学学报,1999,(2).

导师姓名 江来珠

研究方向 不锈钢物理冶金、产品技术

联系方式

通讯地址：上海市宝山区富锦路宝钢中央研究院邮政编码：201900

联系电话：021-26034618；Email：[email protected]

个人简介

1990 年 12 月获华中科技大学工学博士学位。1992 年 7 月-1994

年 10 月在芬兰赫尔新基工业大学从事有关夹杂物变性和切削性能的博士后研究，1994 年 11 月-1997 年 11 月在瑞典山特维克钢铁公司研究开发中心从事不锈钢产品开发工作. 1997 年起在宝钢股份公司研究院工作，先后成为教授级高级工程师、首席研究员、不锈钢研究所所长、研究院院长助理兼不锈钢技术中心主任。现任宝钢集团公司中央研究院副院长兼宝钢不锈钢有限公司副总经理。目前主要从事不锈钢产品技术开发和物理冶金基础研究工作。先后主持国家科技支撑计划、上海市科委、宝钢集团等重大科研项目，发表学

术论文 80 多篇，编写著作 1 部“铁素体不锈钢的物理冶金学原理及生产技术”，申请国家发明专利 40 多项，作为负责人，研究成果曾获上海技术发明二等奖和冶金科学技术一等奖。

代表性论著

[1] Study of mechanical and corrosion properties of a Fe–21.4Cr–6Mn–1.5Ni–0.24N–0.6Mo duplex stainless steel, Zhang Wei;;Jiang Laizhu*;Hu Jincheng;;Song Hongmei,Materials Science & Engineering A 2008;497: 501-504.[2]Effect of ageing on precipitation and impact energy of 2101 economical duplex stainless steel,Zhang Wei;;Jiang Laizhu*;Hu

Jincheng;;Song Hongmei Materials Characterization 2009；60：50-55

[3] Improvement of shape memory effect in an Fe–Mn–Si–Cr–Ni alloy fabricated by equal channel angular pressing,Zhang Wei;;Jiang Laizhu*;Li Ning;;Wen Yuhua Journal of Materials Processing Tech. 2008, 208: 130-134

[4]经济型双相不锈钢的研发进展,江来珠*; 张伟; 王治宇,钢铁研究学报, 2013,(4)

[5]钒对 18Cr-2Mo铁素体不锈钢性能的影响,李达岗; 江来珠*; 金学军等,钢铁研究学报,2013(2)

[6] TMCP 工艺对双相不锈钢 2205厚板性能的影响,吴明睿; 江来珠*; 宋红梅,材料热处理学报, 2012(5)

[7]冷轧压下率对铁素体不锈钢深冲性能的影响,杜伟; 江来珠*; 孙全社; 刘振宇, 材料热处理学报,2010(8)

[8]Ti 和 Nb对 18Cr-2Mo铁素体不锈钢韧脆转变温度的影响，林舒、江来珠*等，上海交通大学学报，2010（5）[9]双相不锈钢 2205 的热加工性能研究，宋红梅、江来珠*、俞敏等，钢铁研究学报，2010（2）

导师姓名 杨 健

研究方向 炼钢与连铸新技术，钢中夹杂物控制技术

联系方式

通讯地址：上海市宝山区富锦路 889 号宝钢集团有限公司中央研究院炼钢技术研究所邮编：201900

办公电话：21-2664-8718

手机： 15821334017

E-mail: [email protected]

个人简介

杨健博士、教授、中组部首批千人计划入选者，宝钢集团有限公司中央研究院炼钢技术研究所首席研究员。现研究领域为炼钢和连铸工艺、夹杂物控制技术。已发表论文 219篇,申请国家发明专利 19项，于 2002 年、2007 年两度荣获日本铁钢协会国际期刊 ISIJ International泽村最佳论文奖。2009 年 10 月评选为宝钢“金苹果计划”炼钢技术领域负责人，2010 年 4 月入选上海市"侨界十杰"，2010 年 8 月和 2014 年 9 月两度入选中国侨界贡献奖（创新人才），2012 年 9 月评选为“十一五”期间中国钢铁工业优秀科技工作者，2012 年 9 月聘请为宝钢集团有限公司中央研究院学术委员会委员，现任中国金属学会冶金反应工程分会副主任委员。

代表性论著

1) Yu-nan WANG, Jian YANG, and Yan-ping BAO: Study of Cutting Mechanism of Non-metallic Inclusions in Free-cutting steels by means of Nano-indentation Measurements, Accepted by Metallurgical and Materials Transactions A.

2) Yu-nan Wang, Jian YANG and Yan-ping BAO:Characteristics of BN Precipitation and Growth during Solidification of BN Free-machining Steel, Accepted by Metallurgical and Materials Transactions B.

3) Lejun Zhou, Wanlin Wang, Boxun Lu, Guanghua Wen and Jian Yang: Effect of Basicity and B2O3 on Viscosity, Melting and Crystallization Behaviors of Low Fluorine Mold Fluxes for Casting Medium Carbon Steels, Accepted by Metals and Materials International.

4) Yiquan WU, Jian YANG, Ruizhi WANG, Kai ZHU, Lejun ZHOU, Wanlin WANG: Effect of Ca Content on Inclusions Evolution in Mn-Si-Ti-Al-Ca Deoxidized Steel，accepted by 《宝钢技术》。

5) Longyun XU, Jian YANG, Ruizhi WANG, Kai ZHU, Lejun ZHOU, Wanlin WANG: Effect of Mg on the Evolution of Inclusions in the Mn-Si-Al-Ti-Mg Deoxidized Steel ,

accepted by 《宝钢技术》。6) Jian YANG, Zhigang MA, Kai ZHU, Ruizhi WANG and Qing ZHENG: Development

of Oxide Metallurgy Technology at Baosteel, Baosteel Technical Research, 9(2012), No. 3, pp. 41-46.

7) 王睿之，杨健，职建军，祝凯：连铸中间包上水口及浸入式水口结瘤物分析，宝钢技术，2012（5）, pp. 13-16.

8) Zhu Kai, YANG Jian,WANG Ruizhi,Effects of Zr on acicular ferrite formation in the HAZ of Ti-bearing low carbon steels with high heat input of weld thermal simulations. Baosteel Technical Research, 2012,（2），pp. 39-43

9) Zhu Kai,Yang Jian,WANG Rui-zhi and Yang Zhen-guo: Effect of Mg addition on inhibiting austenite grain growth of Ti-bearing low carbon steels, Journal of Iron and Steel Research International, 18(2011),Issue 9, pp. 60-64.

10) YANG Jian, ZHU Kai, WANG Ruizhi and SHEN Jianguo: Exellent Heat Affected Zone Toughness Technology Improved by Use of Strong Deoxidizers, Journal of Iron and Steel Research International, 18(2011), August, pp. 141-147.

11) Jian YANG, Kai ZHU, Ruizhi WANG and Jianguo SHEN：Improving the Toughness of Heat Affected Zone of Steel Plate by Use of Fine Inclusion Particles, Steel Research International, 82(2011), Issue 5, pp. 552-556.

12) YANG Jian, ZHU Kai, WANG Ruizhi, ZHANG Yi, SHEN Jianguo: Excellent Heat Affected Zone Toughness Technology Improved by use of Strong Deoxidizers, Baosteel Technical Research, 4(2010), No. 4, pp. 32-36..

13) Jun Du, Jian Yang, Mamoru Kuwabara, Wenfang Li and Jihua Peng: Improvement of Grain Refining Efficiency for Mg-Al Alloy Modified by the Combination of Carbon and Calcium, Journal of Alloys and Compounds, 470(2009), Issues 1-2, pp. 134-140

14) Jun Du, Jian Yang, Mamoru Kuwabara, Wenfang Li and Jihua Peng: Effect of Strontium on the Grain Refining Efficiency of Mg-3Al Alloy Refined by Carbon Inoculation, Journal of Alloys and Compounds, 470(2009), Issues 1-2, pp. 228-232.

15) YANG Jian, SHEN Jian-guo, ZHU Kai and WANG Guo-dong: Progress in Technology Development of Oxide Metallurgy for Manufacturing Steel Plates with Excellent HAZ Toughness, Baosteel Technical Research, 2(2008), No. 4, pp. 43-50.

16) YANG Jian, ZHU Kai, SHEN Jian-guo and KUWABARA Mamoru: Improvement of Steel Cleanliness by Deoxidation with Mg Vapor, Journal of Iron and Steel Research International, 15(2008), No. 10, pp. 675-680.

17) Jun Du, Jian Yang, Mamoru Kuwabara, Wenfang Li and Jihua Peng: Effects of Carbon and/or Alkaline Earth Elements on Grain Refinement and Tensile Strength of AZ31 Alloy, Materials Transactions, 49(2008), No. 10, pp. 2303-2309.

18) Jun Du, Jian Yang, Mamoru Kuwabara, Wen-fang Li and Ji-hua Peng: Effect of Manganese and/or Carbon on the Grain Refinement of Mg-3Al Alloy, Materials

Transactions., 49(2008), No. 1, pp. 139-143.

19) K. Yoshitaka, J. Yang, Z. Z. Liu and M. Kuwabara: クロミア(Cr2O3)の Al熱還元反応の反応メカニズム, 高温学会誌, 34(2008), No. 1, pp. 26-31.

20) Z. Z. Liu, Y. Kobashi, K. Nagai, J. Yang and M. Kuwabara: Morphology Control of Copper Sulfide in Strip Casting of Low Carbon Steel, Tetsu-to-Hagané, 93(2007), No.11, pp. 655-663.

21) Jun Du, Jian Yang, Mamoru Kuwabara, Wen-fang Li and Ji-hua Peng: Effect of iron and/or carbon on the grain refinement of Mg-3Al alloy, Mater. Trans., 48(2007), No. 11, p. 2903.

22) J. Yang, M. Kuwabara, T. Asano, A. Tyuma and J. Du: Effect of Lime Particle Size on Melting Behavior of Lime-containing Flux, ISIJ Int., 47(2007), No. 10, pp. 1401-1408.

23) J. Yang, T. Mori and M. Kuwabara: Mechanism of Carbothermic Reduction of Hematite in Hematite-Carbon Composite Pellets, ISIJ Int., 47(2007), No. 10, pp. 1394-1400.

24) T. Mori, J. Yang and M. Kuwabara: Mechanism of Carbothermic Reduction of Chromium Oxide, ISIJ Int., 47(2007), No. 10, pp. 1387-1393.

25) R. Takata, J. Yang and M. Kuwabara: Characteristics of Inclusions Generated during Al-Mg Complex Deoxidation of Molten Steel, ISIJ Int., 47(2007), No. 10, pp. 1379-1386.

26) K. Yasuda, Y. Saiki, T. Kubo, M. Kuwabara and J. Yang: Influence of High-Power Ultrasonic Irradiation on Primary Nucleation Process during Solidification, Jpn. J. Appl. Phys., 46(2007), No. 7B, pp. 4939-4944.

27) J. Yang, T. Yamasaki and M. Kuwabara: Behavior of Inclusions in Deoxidation Process of Molten Steel with in Situ Produced Magnesium Vapor, ISIJ Int., 47(2007), No. 5, pp. 699-708.

28) J. Yang, M. Kuwabara, T. Sakai, N. Uchida, Z. Z. Liu and M. Sano: Simultaneous Desulfurization and Deoxidation of Molten Steel with In Situ Produced Magnesium Vapor, ISIJ Int., 47(2007), No. 3, pp.418-426.

29) J. Yang, M. Kuwabara, T. Sawada and M. Sano: Rate of Isothermal Reduction of MgO with Al, Tetsu-to-Hagané, 93(2007), No. 3, pp. 201-207.

30) S. Mukawa, Y. Ueshima, M. Sano, J. Yang and M. Kuwabara: The Effect of Magnesium Gas Injecting Conditions on the Rate of Hot Metal Desulfurization, ISIJ Int., 46(2006), No. 12, pp.1778-1782.

31) Z. Z. Liu, Y. Kobayashi, J. Yang, K. Nagai and M. Kuwabara: Effect of Nano-scale Copper Sulfide Precipitation on Mechanical Properties and Microstructure of Rapidly Solidified Steel with Tramp Copper Element, Mater. Trans., 47(2006), No. 9, pp. 2312-2320.(SEM Photos Revealed on the Cover of Materials Transactions)

32) J. Yang, M. Kuwabara, T. Sawada and M. Sano: Kinetics of Isothermal Reduction of

MgO with Al, ISIJ Int., 46(2006), No. 8, pp. 1130-1136.

33) Z. Z. Liu, Y. Kobayashi, J. Yang, K, Nagai and M. Kuwabara: “In-situ” Observation of the delta/gamma Phase Transformation on the Surface of Low Carbon Steel Containing Phosphorus with Different Rates, ISIJ Int., 46(2006), No. 6, pp.847-853.

34) Y. Saiki, T. Kubo, M. Kuwabara and J. Yang: Acoustic-Cavitation-Based Production of Foamed Metallic Material, Jpn. J. Appl. Phys., 45(2006), No. 5B, pp. 4793-4799.

35) Z. Z. Liu, Y. Kobashi, K. Nagai, J. Yang and M. Kuwabara: Morphology Control of Copper Sulfide in Strip Casting of Low Carbon Steel, ISIJ Int., 46(2006), No. 5, pp. 744-753. (SAWAMURA Best Article Award of The Iron and Steel Institute of Japan)

36) J. Yang, M. Kuwabara, Z. Z. Liu, T. Asano and M. Sano: Mechanism of Aluminothermic Reduction of MgO, Tetsu-to-Hagané, 92(2006), No. 4, pp. 239-245.

37) J. Yang, M. Kuwabara, K. Okumura and M. Sano: Effect of Operating Parameters on Resulfurization in Desulfurization Process with In Situ Produced Magnesium Vapor, Tetsu-to-Hagané, 92(2006), No. 4, pp. 246-253.

38) J. Yang, M. Kuwabara, T. Teshigawara and M. Sano: Resulfurization Rate in Magnesium Desulfurization Process of Molten Iron, Tetsu-to-Hagané, 92(2006), No. 4, pp. 254-261.

39) J. Yang, M. Kuwabara, Z. Z. Liu, T. Asano and M. Sano: In Situ Observation of Aluminothermic Reduction of MgO with High Temperature Optical Microscope, ISIJ Int., 46(2006), No. 2, pp. 202-209.

40) J. Yang, M. Kuwabara, K. Okumura, Z. Z. Liu and M. Sano: Improvement of Desulfurization Efficiency of Molten Iron with Magnesium, Revue de Metallurgie, (2005), December, pp. 22-23.

41) J. Yang, M. Kuwabara, K. Okumura and M. Sano: Prevention of Resulfurization in the Desulfurization Process with Magnesium Vapor Produced In Situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ Int., 45(2005), No. 12, pp. 1795-1803.

42) J. Yang, M. Kuwabara, T. Teshigawara and M. Sano: Mechanism of Resulfurization in the Magnesium Desulfurization Process of Molten Iron, ISIJ Int., 45(2005), No. 11, pp. 1607-1615.

43) T. Kubo, M. Kuwabara and J. Yang: Visualization of Acoustically Induced Cavitation Bubbles and Microjets with the Aid of High Speed Camera, Jpn. J. Appl. Phys., 44(2005), No. 6B, pp. 4647-4652.

44) J.Yang, K.Okumura, M.Kuwabara and M.Sano: Improvement of Desulfurization Efficiency of Molten Iron with Magnesium Vapor Produced In Situ by Aluminothermic Reduction of Magnesium Oxide, Metallurgical and Materials Transactions B, 34B(2003), No. 5, pp. 619-629.

45) M.Sano, K.Okumura, J.Shan and J.Yang: Iron and Steel Refining with Magnesium

Vapor Injection, SEAISI Quarterly, 32(2003), No. 2, pp. 12-18.

46) T. Kubo, M. Kuwabara and J. Yang: Analysis of the Behavior of Muti-Bubbles Generated by Acoustic Cavitations, Technical Report of IEICE(The Institute of Electronics Information and Communication Engineers), 103(2003), No. 11, pp. 35-37.

47) K. Kondo, M. Kuwabara and J. Yang: ：Model Experiment about Effects of Process Variables on Ultrasonic Decomposition of Chemical Substances in Wastewater, Technical Report of IEICE(The Institute of Electronics Information and Communication Engineers), 103(2003), No. 11, pp. 39-42．

48) J. Yang, K. Okumura, M. Kuwabara and M. Sano: Behavior of Magnesium in the Desulfurization Process of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ Int. 42(2002), No. 7, pp. 685-693.

49) J. Yang, K. Okumura, M. Kuwabara and M. Sano: Effects of Operating Parameters on Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ Int. 42(2002), No. 6, pp. 595-602.

50) J. Yang, K. Okumura, M. Kuwabara and M. Sano: Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide, ISIJ Int. 41(2001), No.9, pp. 965-973.

51) J. Yang, S. Ozaki, R. Kakimoto, K. Okumura, M. Kuwabara and M. Sano: Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Carbothermic Reduction of Magnesium Oxide, ISIJ Int. 41(2001), No. 9, pp. 945-954. (SAWAMURA Best Article Award of The Iron and Steel Institute of Japan)

导师姓名 张忠铧

研究方向 钢铁材料设计及开发，石油管材腐蚀行为

联系方式 Tel：021-26647187

Email：[email protected]

个人简介1998 年毕业于东南大学金属材料专业，获工学博士学位。现任宝钢集团中央研究院钢管条钢技术中心主任、首席研究员、宝钢集团技术专家、教授级高级工程师、全国钢标准化技术委员会“金属及合金的腐蚀”分委会主任委员，美国腐蚀工程师协会(NACE)、中国腐蚀协会和金属学会会员；“腐蚀与

防护”、“世界钢铁”、“Baosteel technical research”编委等。长期从事高等级油井管及高端线材产品开发和技术研究，先后主持国家重大专项及重点科技支撑课题以及公司等各类研究项目近 25项，开发出抗腐蚀、耐热、高强高韧、抗挤毁、气密封螺纹等不同功能的系列油井管以及高等级汽车用弹簧钢等系列产品，并建立了不同腐蚀环境管材的适用性评价及选材体系。项目先后获国家国家科学技术进步特等奖、国家技术发明二等奖、上海市技术发明一等奖、上海市科技进步二、三等奖、上海市发明创造专利一等奖等十多项省部级以上科技奖项，共获得 25项发明专利授权，发表技术论文 40余篇。个人先后获得中国青年科技奖、上海市青年科技杰出贡献奖、上海市领军人才、上海市青年科技英才、上海市优秀技术带头人等荣誉，并入选国家“百千万人才工程“计划。

代表性论著

1) Zhang Zhonghua, Sun Yangshan and Shen Guangjun, IMPROVEMENTS OF

TENSILE STRENGTH AND CREEP RESISTANCE OF Fe-28Al ALLOY

WITH TUNGSTEN ADDITION, Scripta Materialia, Vol. 38, No. 1, pp. 21–25,

1998

2) Zhang Zhonghua, Sun Yangshan, Liu Guijun and Guo Jun, DUCTILITY

IMPROVEMENT OF Fe3Al-BASED ALLOY WITH SURFACE COATING,

Scripta Materialia, Vol. 35, No. 9, pp. 1071-1075, 1996

3) Zhang Zhonghua, Sun Yangshan, Guo Jun, EFFECT OF NIOBIUM

ADDITION ON THE MECHANICAL PROPERTIES OF Fe3Al-BASED

ALLOYS, Scripta Metallurgica ethhterialia, Vol. 33, No. 12, pp. 2013-

2017,1995

4) Zhang Zhonghua( 张忠铧) , Sun Yangshan( 孙扬善) , Shen Guangjun( 沈光

骏 ), Behavior of Cerium Addition in the Binary Fe-28Al Alloy, JOURNA L

OF RA RE EARTHS 1998 Vol. 16 No. 3, 184-188

5) Qianlin Wua, Zhonghua Zhang, Xiaoming Dong, Jianqiang Yang, Corrosion

behavior of low-alloy steel containing 1% chromium in CO2environments,

Corrosion Science 75 (2013) 400–408

6) S.J. Song, F. Liu, Z.H. Zhang, Analysis of elastic–plastic accommodation due

to volume misfit upon solid-state phase transformation, Acta Materialia,

Volume 64, February 2014, Pages 266-281

7) Zhang Zhonghua, Zhang Chunxia, Pan Dagang,etc. Research and

Development of Nickle-based OCTG Used in Severe Sour Oil and Gas Fields,

the fourth Baosteel biennial academic conference, 2010, Shanghai China

8) Zhang Zhonghua, Zhang Chunxia, etc. XPS analysis of passive film formed on

the G3 nickel-base alloy tubing under corrosive conditions, Baosteel technical

research, 2(2)2008,11-15

9) 张忠铧，张春霞等，高酸性腐蚀气田用镍基合金油套管的开发，钢

管，40(4) 2011, 23-28

10) 张忠铧，杨建强等，镍基合金油套管的析出相及对腐蚀性能的影响，宝

钢技术，2011 (6), 1-7

11) 张忠铧，张春霞等，高温高压 H2S腐蚀试验方法的国际标准分析，世界

钢铁，7（4）（2007），17-21

12) CF Chen, WF Chang, ZH Zhang, etc ， The Effect of Cr on The Pitting

Resistance of Oil Tube Steel in CO2 Corrosion System, Corrosion, 61(6)2005,

594-601