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金学军

教授,博士生导师

通讯地址: 转化医学大楼二楼; 材料学院徐祖耀楼505A
电子邮件: jin@sjtu.edu.cn
个人主页: http://iptmd.sjtu.edu.cn

  • 个人简介

    1991,1994年于南京航空航天大学材料系获得学士和硕士学位。1997年于中国科学院上海冶金所(现上海微系统与信息技术研究所)获得博士学位。后进入上海交通大学材料科学与工程学院博士后流动站,1999年出站留校任教,2002年8月晋升为教授,曾任材料学院副院长(2010-2018)。现任上海交通大学材料科学与工程学院长聘教授,相变与结构研究所所长,博士生导师,上海交通大学医疗机器人研究院双聘教授。兼任马氏体相变国际顾问委员会委员;国际内耗与力学谱学术委员会委员;美国TMS相变&钢铁委员会委员;“Ironmaking and Steelmaking”编委;中国物理学会内耗与力学谱专业委员会副主任委员;中国金属学会材料分会、特殊钢分会理事;上海市热处理学会理事长


    2000年8月至11月任澳大利亚伍伦贡大学高级访问学者,2001年1月至12月任美国麻省理工学院材料系访问科学家,2012年6月至7月任英国剑桥大学材料系访问教授,2017年11月至2018年2月任英国帝国理工学院机械系访问科学家。2006年当选教育部新世纪优秀人才;2008年获上海交通大学SMC优秀青年教师奖;2018年上海市优秀学术带头人。


    近年来,牵头主持十三五国家重点研发计划1项、主持国家自然科学联合基金重点项目1项,面上项目3项。在国内外期刊发表论文近200篇,已授权国家发明专利8项。主讲“材料热力学”(本科,上海市精品课程)和“高等材料热力学”(研究生,致远荣誉课程)。


    提出磁控形状记忆合金成分设计图单篇文章引用超过200次;验证全新的淬火碳分配回火(QPT)新型热处理工艺;提出了塑性成形和热处理一体化新工艺,其强塑积增加50%以上,获得欧盟专利授权,获邀发表英文综述论文;聘为宝钢客座专家,和宝钢股份协作,支持宝钢成功研制全球首发第三代汽车用高强钢(QP980和QP1180等)。

  • 研究方向

    高性能智能材料与器件、先进结构材料与制造

  • 科研项目

    1.重点研发计划(2017YFB070300)基于理性设计的高端装备制造用特殊钢研发(2017-2021);
    2.国家自然科学联合基金重点(U564203)汽车用超高强度钢热冲压成形组织强韧性机理与调控(2016-2019);
    3.国家自然科学基金重点(51831002)复相组织超高强高韧钢中多类型析出强化及相变强化耦合机制研究(2019-2023);
    4.国家自然科学基金 (51571141)QPT处理高强钢碳分配的定量调控机制(2016-2019);
    5.国家自然科学基金国际合作(51911530204)汽车用硅硼钢成形热处理一体化工艺组织演变的模拟与验证(2019-2021);
    6.科技部973项目(2011CB706604)轴承材料热处理工艺与组织性能调控(2011-2015);
    7.科技部973项目(2010CB630803)超高强度高塑性马奥组织薄板钢的基础研究(2010-2014);
    8.国家自然科学基金(51174251)热成形QPT钢组织超细化机制与高强塑积形成原理(2012-2014);
    9.上海市科委纳米专项(0852nm02500)低成本超高强度纳米贝氏体钢的设计和制造工艺(2008-2010);
    10.国家自然科学基金(50571064)新型铁基磁驱动形状记忆合金(2006-2008)

  • 代表性论文专著

    (2019)
    1.Hong Chen, Fei Xiao*, Xiao Liang, Zhenxing Li, Zhu Li, Xuejun Jin*, ,Takashi Fukuda*, Giant elastocaloric effect with wide temperature window in an Al-doped nanocrystalline TieNieCu shape memory alloy, Acta Materialia 177 (2019) 169-177;

    2.Guobo Pang, Mingjiang Jin∗, Shungui Zuo, Xuejun Jin∗, Martensitic transformation and superelasticity in Au7Cu5Al4 shape memory alloy microwires, Intermetallics 112 (2019) 106527;

    3.Hong Chen, Fei Xiao⁎, Xiao Liang, Zhenxing Li, Zhu Li, Xuejun Jin⁎, NaMin, Takashi Fukuda⁎, Improvement of the stability of superelasticity and elastocaloric effect of a Ni-rich Ti-Ni alloy by precipitation and grain refinement, Scripta Materialia 162 (2019) 230–234;

    4.Lianbo Luo, Wei Li⁎, Shilong Liu, Li Wang, Xuejun Jin⁎, Effect of intermediate temperature annealing on the stability of retained austenite and mechanical properties of medium Mn-TRIP steel, Materials Science & Engineering A 742 (2019) 69–77;

    5.Xiao Liang, Fei Xiao⁎, Hong Chen, Zhenxing Li, Zhu Li, Xuejun Jin⁎, Takashi Fukuda⁎, Internal friction of the R-phase in single crystalline Ti-50.8Ni (at.%) alloy containing controlled precipitate of Ti3Ni4, Scripta Materialia 166 (2019) 44–47;

    6.Yuantao Xu, Wei Li⁎, Xunwei Zuo, Yu Li, Caiyi Zhang, Na Min, Hao Chen, Xuejun Jin, Nanoprecipitation-suppressed ferrite transformation (γ → α) during tempering in a medium‑manganese steel, Scripta Materialia 162 (2019) 391–396;

    7.Yuantao Xu, Wei Li*, Mingjia Wang, Xiying Zhang, Yun Wu, Na Min, Wenqing Liu, Xuejun Jin*, Nano-sized MX carbonitrides contribute to the stability of mechanical properties of martensite ferritic steel in the later stages of long-term aging, Acta Materialia 175 (2019) 148-159;

    8.Y.W Song, Mingjiang Jin*, Shungui Zuo, Xuejun Jin, Elinvar effect in severely-deformed Ti-50.8(at%)Ni thin belt, Materials Letters 252 (2019) 96–99;

    9.ZHENXING LI, FEI XIAO, XIAO LIANG,HONG CHEN, ZHU LI, XUEJUN JIN, and TAKASHI FUKUDA, Effect of Hydrogen Doping on Stress-Induced Martensitic Transformation in a Ti-Ni Shape Memory Alloy, METALLURGICAL AND MATERIALS TRANSACTIONS A 50A, JULY 2019—3033;


    (2018)
    10.Jiannan Liu,Mingjiang Jin,Zhen Zhang, Lihuang Wu, Xuejun Jin, Chenping Zhang, and Yue Xing, Effects of Titanium Micro-Nanopermeable Structures on Osteogenic Differentiation, Journal of Nanomaterials, Volume 2018, Article ID 6468246, https://doi.org/10.1155/2018/6468246;

    11.Hui Zheng, Wei Li, Yu Gong, Li Wang, Xue-jun Jin, Microstructure-based finite element modeling of effect of metastable austenite on mechanical properties of quenching and partitioning (Q&P) 980 steel, J. Iron Steel Res. Int. (2018) 25:1140-1148;

    12.Hong Chen, Fei Xiao*, Xiao Liang, Zhenxing Li, Xuejun Jin *, Takashi Fukuda, Stable and large superelasticity and elastocaloric effect in nanocrystalline Ti-44Ni-5Cu-1Al (at%) alloy, Acta Materialia 158 (2018) 330-339;

    13.Yu Li, Wei Li*, Wenqing Liu, Xiaodong Wang, Xueming Hua, Huibin Liu, Xuejun Jin*, The austenite reversion and co-precipitation behavior of an ultra-low carbon medium manganese quenching-partitioning-tempering steel, Acta Materialia 146 (2018) 126e141;

    14.Yu Li, Yufei Lu, Wei Li*, Mahmoud Khedr, Huibin Liu, Xuejun Jin*, Hierarchical microstructure design of a bimodal grained twinning induced plasticity steel with excellent cryogenic mechanical properties, Acta Materialia 158 (2018) 79-94;

    15.Pengwei Zhou, Wei Li*, Hongshan Zhao, Xuejun Jin*, Role of microstructure on electrochemical hydrogen permeation properties in advanced high strength steels, international journal of hydrogen energy 43 (2018) 10905-10914;

    16.Yi Li, Zhangxing Chen, Lingxuan Su, Wei Chen, Xuejun Jin, Hongyi Xu⁎, Stochastic reconstruction and microstructure modeling of SMC chopped fiber composites, Composite Structures 200 (2018) 153–164;

    17.Fei Xiao, Kangjie Chu, Xuejun Jin⁎, Fuzeng Ren⁎, Takashi Fukuda, Tomoyuki Kakeshita, Qingping Sun*, Size effect on the mechanical behavior of single crystalline Fe-31.2Pd (at.%) micropillars, Scripta Materialia 152 (2018) 141–145;

    18.F Xiao, H Chen, X Jin*, Z Nie, T Kakeshita, T Fukuda, Stress-induced reverse martensitic transformation in a Ti-51Ni (at%) alloy aged under uniaxial stress, Nature, Scientific reports 8 (1), 6099

    19.B Liu, X Lu, W Li, X Jin*, Enhanced wear resistance of nanotwinned austenite in higher Si nanostructured bainitic steel, Wear 398 (2018), 22-28

    20.M Khedr, W Li, X Jin*, Studying Hydrogen Embrittlement in Nano-twinned Polycrystalline Fe-12.5 Mn-1.2 C Austenitic Steel, TMS Annual Meeting & Exhibition (2018), 113-121

    21.Wei Cheng, Nirala Singh, Will Elliott, Joun Lee, Alan Rassoolkhani, Xuejun Jin, Eric W. McFarland, and Syed Mubeen*, Earth-Abundant Tin Sulfide-Based Photocathodes for Solar Hydrogen Production, Advanced Science 2018, 5, 1700362;

    22.Y Li, W Li, X Zhu, H Zhou, X Jin*, Mechanism of improved hydrogen embrittlement resistance of low-temperature plasma carburised stainless steel, Surface Engineering 34 (2018), 189-192

    23.F Xiao, T Fukuda, X Jin*, J Liu, T Kakeshita, Elastocaloric Effect Associated with Different Types of Martensitic Transformations: Typical First‐Order and Weak First‐Order Ones physica status solidi (b) 255 (2018), 1700246

    24.M Khedr, W Li, X Zhu, P Zhou, S Gao, X Jin*, Improving hydrogen embrittlement resistance of Hadfield steel by thermo-mechanical flash-treatment, Materials Science and Engineering: A 712 (2018), 133-139

    25.P Zhou, W Li, X Jin*, Electrochemical Hydrogen Permeation Properties of MoS2 and Ni80Cr20 Films Prepared by Magnetron Sputtering on Pure Iron, Journal of The Electrochemical Society 165 (2018), E256-E261

    (2017)
    26.Yu Li, Wei Li, Na Min, Wenqing Liu, Xuejun Jin, “Effects of hot/cold deformation on the microstructures and mechanical properties of ultra-low carbon medium manganese quenching-partitioning-tempering steels”, Acta Materialia 139 (2017) 96-108.

    27.Yuantao Xu, Yihong Nie, Mingjia Wang, Wei Li, Xuejun Jin, “The effect of microstructure evolution on the mechanical properties of martensite ferritic steel during long-term aging”, Acta Materialia 131 (2017) 110-122.

    28.Yu Li, Wei Li, Jin Cheng Hu, Hong Mei Song, Xue Jun Jin, “Compatible strain evolution in two phases due to epsilon martensite transformation in duplex TRIP-assisted stainless steels with high hydrogen embrittlement resistance”, International Journal of Plasticity 88 (2017) 53-69.

    29.Lianbo Luo, Wei Li, Li Wang, Shu Zhou, Xuejun Jin, “Tensile behaviors and deformation mechanism of a medium Mn-TRIP steel at different temperatures”, Materials Science and Engineering A 682 (2017) 698-703.

    30.Zhou, P., Li, W., Jin, X., “Comparison of Hydrogen Permeation Properties of Pure Ni, Ni-MoS2, Ni-Graphene Composite Coatings Deposited on Quenching and Partitioning Steel and the Hot-Dipping Galvanized Steel’, J. Electrochem. Soc. 2017 164: p. D394-D400.

    31.Zhou, P., Li, W., Li, Y., Jin, X., “The Effect of MoS2 Content on the Protective Performance of Ni-MoS2 Composite Coatings against Hydrogen Embrittlement in High Strength Steel’, J. Electrochem. Soc. 2017 164: p. D23-D29.


    (2016)
    32.Fei Xiao, Xiao Liang, Xuejun Jin, Zhihua Nie, Tomoyuki Kakeshita, and Takashi Fukuda, “Stable Elastocaloric effect under tensile stress of iron-palladium alloy and its in situ X-ray observation”, Acta Materialia 118 (2016) 88–94.

    33.HONGSHAN ZHAO, WEI LI, LI WANG, SHU ZHOU, and XUEJUN JIN, The deformation behavior analysis and mechanical modeling of step/intercritical quenching and partitioning treated multiphase steels[J]. Metallurgical and Materials Transactons 47A, 2016: 3943-3955.

    34.Hongshan Zhao, Wei Li, Xu Zhu, Xiaohui Lu, Li Wang, Shu Zhou and Xuejun Jin, Analysis of the relationship between retained austenite locations and the deformation behavior of quenching and partitioning treated steels, Materials Science and Engineering: A, 2016, 649: 18-26.

    35.Pengwei Zhou, Wei Li, Xu Zhu, Yu Li, Xuejun Jin and Jian Chen, Graphene Containing Composite Coatings as a Protective Coatings against Hydrogen Embrittlement in Quenching & Partitioning High Strength Steel, Journal of The Electrochemical Society, 2016, 163(5): D160-D166.

    36.Xu Zhu, Wei Li, Hongshan Zhao, Qihang Han, Li Wang, Huisheng Jiao and Xuejun Jin, Unveiling the origin of work hardening behavior in an ultrafine-grained manganese transformation-induced plasticity steel by hydrogen investigation, Metallurgical and Materials Transactions A, 2016, 47(9): 4362-4367.

    37.Xu Zhu, Ke Zhang, Wei Li* and Xuejun Jin*, “Effect of retained austenite stability and morphology on the hydrogen embrittlement susceptibility in quenching and partitioning treated steels”, Materials Science & Engineering A 658 (2016) 400-408.

    38.Hongshan Zhao, Wei Li, Xu Zhu, Xiaohui Lu, Li Wang, Su Zhou, Xuejun Jin*, “Quantitative assessment of retained austenite in quenching and partitioning treated multiphase steel”, Materials Science and Technology 32 (2016) 1619-1624.

    39.Xiaohui Lu, Wei Li, Hongshan Zhao, Xuejun Jin. Study on the local plastic indentation resistance of retained austenite in bearing steel [J]. ISIJ International, 2016, Vol56, No.5, 851-854.

    40.Y. Xiao, W. Li*, H. S. Zhao, X. H. Lu, X. J. Jin*, “Investigation of Carbon Segregation during Low Temperature Tempering in a Medium Carbon Steel”, Materials Characterization 117 (2016) 84-90.

    41.Chang Ni, Hong Ding, Xuejun Jin,Super-plasticity via secondary twinning in magnesium nanowire revealed by molecular dynamics simulations, Computational Materials Science 111 (2016) 163–174.

    42.Guangping Liu, Xuejun Jin, Wendong Qiu, Guozhi Ruan, Yuanyuan Li, The effect of microsilica on the oxidation resistance of Al2O3–SiC–SiO2–C castables with Si and B4C additives, Ceramics International, 42 (2016) 251-262.

    43.Riming Wu, Junwan Li,Wei Li, Xiaochun Wu, Xuejun Jin*, Shu Zhou, Li Wang, “Effect of metastable austenite on fracture resistance of quenched and partitioned (Q&P) sheet steels”, Materials Science & Engineering A 657 (2016) 57–63.


    (2015)
    44.Chang Ni, Hong Ding, Mark Asta and Xuejun Jin*, “Computational study of <11oo> symmetric tilt grain boundaries in Mg and Ti”, Scripta Materialia 109 (2015) 94–97.

    45.Shungui Zuo, Mingjiang Jin, Dan Chen, and Xuejun Jin*, “Origin of the anelastic behavior in Ti50Ni44Fe6 alloy”, Scripta Materialia 108 (2015)113-116.

    46.Fei Xiao, Mingjiang Jin, Jian Liu, Xuejun Jin*, “Elastocaloric effect in Ni50Fe19Ga27Co4 single crystals”, Acta Materialia 96 (2015) 292–300.

    47.Xu Zhu, Wei Li, T.Y. Hsu, Shu Zhou, Li Wang and Xuejun Jin*, “Improved resistance to hydrogen embrittlement in a high-strength steel by quenching–partitioning–tempering treatment”, Scripta Materialia 97 (2015) 21–24.

    48.Fei Xiao, Takashi Fukuda, Tomoyuki Kakeshita and Xuejun Jin, “Elastocaloric effect by a weak first-order transformation associated with lattice softening in an Fe-31.2Pd (at.%) alloy”, Acta Materialia 87 (2015) 8–14

    49.Yonghong Geng, Doyup Lee, Xiao Xu, Makoto Nagasako, Mingjiang Jin, Xuejun Jin*, Toshihiro Omori, Ryosuke Kainuma, “Coherency of ordered precipitates and thermoelastic martensitic transformation in FeNiCoAlTaB alloys”, Journal of Alloys and Compounds 628 (2015) 287–292.

    50.Xiaohui Lu, Wei Li, Chenglin Wang, Hongshan Zhao, Xuejun Jin, “Effects of sub-zero Celsius treatment and tempering on the stability of retained austenite in bearing steel”, Acta Metall Sin., 28 (2015)787-792.

友情链接
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医疗机器人研究院