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苟晓凡

发布人: 院领导     发布时间: 2014-03-28     浏览次数: 7805

姓名

苟晓凡

性别

 

民族

汉族

籍贯

陕西

出生年月

1971.3

政治面貌

中共党员

最高学历

研究生

最高学位

博士

现任职务

结构与材料力学研究所 所长

力学与材料学院学术委员会 主任

技术职称

教授

通讯地址

南京河海大学力学与材料学院

电话

025-83786763

Email

xfgou@hhu.edu.cn


 


苟晓凡教授,博士生导师。目前,担任结构与材料力学研究所 所长,力学与材料学院学术委员会 主任。

 

欢迎力学、材料、物理、机械、化工以及土木专业的学生报考研究生;另外,每年1-2博士后职位向以上研究背景的博士开放。

联系E-mail: xfgou@hhu.edu.cn.

 

研究领域为新型材料与结构力学

 新型功能材料的微观结构与其宏观材料特性的本质关联;功能软材料(如纳米聚合物复合体)的内在机理及力学调控。包含但不限于以下研究方向:

       - 新型材料与结构力学 

       - 多物理场耦合理论和多层次、跨尺度理论与计算方法 

- 功能纳米聚合物复合体的机理与调控

- 以计算材料学为基础的性能预报、调控及材料设计

- 无损检测(NDT)理论、技术及应用

  • 主要学习简历:

    -1999.8-2004.7兰州大学,力学专业,智能材料与结构力学(博士,理学)

    -1992.7-1996.7 兰州大学, 理论与力学系系, 本科毕业

  • 工作简历:

    -2016.3-2017.3 Georgia Institute of Technology (美国Georgia Tech佐治亚理工) visiting professor

    -2009.9-2011.6North Carolina State University (美国北卡州立大学) Research Associate 

    -2009.5-2009.8 National High Magnetic Field Laboratory (美国高磁场国家实验室) Visiting Scientist 

    -2004.9-河海大学工程力学系 

    -1996.7-1999.9武汉理工大学 基础部 

  • 所获奖励:

     

    -2016 年“现代工程材料多尺度力学的高性能仿真技术”江苏力学科学技术奖一等奖(1/7)(“江苏省力学学会首届奖励)

    -2016“现代工程材料多尺度力学理论方法及高性能仿真技术”江苏省科学技术奖励三等奖1/7

    -2016“微结构信息驱动下现代工程材料力学行为的跨尺度研究”江苏省高等学校科学技术研究成果奖三等奖 (1/5) –“江苏省教育厅

    -2007国际电工电子协会(IEEE)应用超导学术期刊(IEEE Transactions on Applied Superconductivity2007年度最佳贡献论文(The Best Contributed PaperVan Duzer Prize这是我国学者首次获该项国际学术奖励,也是该项奖励首次授予非电工电子领域的学者。

    -2006年国家博士后科学基金资助(No.20060390955

    -江苏省2006年度“青蓝工程”骨干教师培养对象

    - 2003年香港“求是”基金会颁发的“求是”奖学金

    -荣获2004年度国际电磁固体力学创始人之一日本东京大学Miya教授资助的“Kenzo Miya”奖学金

    -2006年度第三届江苏省工科基础力学青年教师讲课竞赛二等奖

  • 科研(人才)项目:

    科研类:

  1. 国家自然科学基金 面上基金 (No. 11672100)

    起止年月:2017.01-2020.12;直接费用:60

    名称:多晶超导薄膜电流-应变本质依赖关系的多尺度研究

  2. 国家自然科学基金 面上基金(No. 10972071)

    起止年月:2010.12012.1240

    名称:高温超导带材的力学特性及其对超导电性的影响

  3. 国家自然科学基金 面上基金No. 11372096

    起止年月:2014.1-2017.12 80

       名称:超导多芯圆线复杂微结构对其宏观力--热耦合特性的影响

  4. 国家自然科学 青年基金(No.10502019)

    起止年月:2006.12008.12 25

    名称:超导悬浮的磁通运动机理及其对悬浮动力稳定特性的影响

  5. 2013年博士点基金资助课题名单-博导(No. 20130094110009

    起止年月:2014.1-2017.12 12

    名称:力学变形对超导多晶薄膜临界电流弱化效应的基础研究

  6. 高校业务费重点项目(No. 2018B48714

    起止年月:2018-2020 60

    名称:新型材料与结构力学相关基础问题研究

     

    人才类:

    12008年度入选“新世纪优秀人才支持计划”,(NCET-08-0768) 50

    2中国博士后科学基金“特别资助”(No. 2009025022009.10  10

    3) 国家博士后基金(二等) (No. 20060390955) 2006.3

    4) 江苏省第四期“333高层次人才培养工程”第三层次培养对象 2011年度

    4) 江苏省博士后科研资助计划(No. 0502037B2006年度

        5) 江苏省“青蓝工程”骨干教师资助计划(2006年度)

    6)  中国留学基金(The state scholoship fund全额资助2007年批准

    7Visiting Scientist Program (VSP) from the National High Magnetic Field Laboratory (NHMFL) of America. $14,400, Mar. 1st, 2009-Feb. 28th, 2010

  • 近五年Peer-review papers(部分Journal论文,加*为通讯作者)

[1]    F. Xue, W. Zhang, and X.-F. Gou*, Modeling the trapped field distribution in a polycrystalline bulk superconductor based on a critical state model, Physica C: Superconductivity and its Applications, vol. 556, pp. 43-60, 2019.

[2]    W. Xu, Y. Wu, and X. Gou*, Effective elastic moduli of nonspherical particle-reinforced composites with inhomogeneous interphase considering graded evolutions of elastic modulus and porosity, Computer Methods in Applied Mechanics and Engineering, vol. 350, pp. 535-553, 2019.

[3]    T.-G. Wang, J.-J. Cao, and X.-F.Gou*, Activation energy of oxygen diffusion: a possible indicator of supercurrents through YBa2Cu3O7 grain boundaries, Applied Surface Science, vol. 480, no. 30, pp. 765-769, 2019.

[4]    S. O. Mbam, Z.-F. Jiang, and X.-F. Gou*, A displacement-energy model of studying the delaminating behavior of multi-layer REBCO coated conductor tapes, Physica C: Superconductivity and its Applications, vol. 560, pp. 10-18, 2019/05/15/ 2019.

[5]    Z.-F. Jiang, X.-F. Gou*, and T.-M. Shen, Numerical simulation of quench initiation and propagation in multi-filamentary Bi2Sr2CaCu2Ox round wires at high magnetic fields, Journal of Applied Physics, vol. 125, no. 16, p. 163901, 2019.

[6]    Z. Jiang, X. Gou*, and T. Shen, Impact of the complex interface between Bi2Sr2CaCu2Ox filaments and Ag matrix on the quench behavior of composite round wires, IEEE Transactions on Applied Superconductivity, vol. 29, no. 1, 2019.

[7]    X.-F. Gou*, P.-J. Zhuo, X.-X. Zhou, and J. Schwartz, Fractal-based analysis of the void microstructure of Bi2Sr2CaCu2Ox superconducting filaments and the caused anomalous thermal diffusion, Computational Materials Science, vol. 158, pp. 219-227, 2019.

[8]    C. Zhang, X. Gou*, and R. Xiao, Controllable shape-memory recovery regions in polymers through mechanical programming, Journal of Applied Polymer Science, vol. 135, p. 45909, 2018.

[9]    F. Xue, S. Sun, G. Zhu, and X. Gou*, Thickness-Dependent Current Density and Flux Distribution in Thin Current-Carrying Superconducting Films Exposed to a Magnetic Field, Journal of Superconductivity and Novel Magnetism, January 26 2018.

[10]W. Xu, M. Jia, Z. Zhu, M. Liu, D. Lei, and X. Gou*, n-Phase micromechanical framework for the conductivity and elastic modulus of particulate composites: Design to microencapsulated phase change materials (MPCMs)-cementitious composites, Materials & Design, vol. 145, pp. 108-115, 2018.

[11]Y. Xiao, H. M. Zhou, and X. F. Gou*, A Nonlinear Magneto-Mechanical Coupled Constitutive Model for the Magnetostrictive Material Galfenol, Cmc-Computers Materials & Continua, vol. 54, pp. 209-228, Mar 2018.

[12]Y. Liu, F. Xue, and X. F. Gou*, The Influence of Dispersedly Distributed Cracks on Critical Current of the Nb3Sn Strand, Journal of Superconductivity and Novel Magnetism, vol. 31, pp. 1323-1328, May 2018.

[13]Z.-X. Li, J.-J. Cao, X.-F. Gou*, T.-G. Wang, and F. Xue, Uncovering a new quasi-2D CuO2 plane between the YBa2Cu3O7 and CeO2 buffer layer of coated conductors, Applied Surface Science, vol. 427, pp. 169-173, 2018.

[14]Z. Jiang, X. Gou*, and T. Shen, Impact of the complex interface between Bi2Sr2CaCu2Ox filaments and Ag matrix on the quench behavior of composite round wires, IEEE Transactions on Applied Superconductivity, pp. 1-1, 2018.

[15]J.-J. Cao, T.-G. Wang, and X.-F. Gou*, Predictions for structural stability and electronic evolution in pressure-induced overdoped YBa2Cu3O7, Computational Materials Science, vol. 155, pp. 416-423, 2018.

[16]J.-J. Cao, X.-F. Gou*, T.-G. Wang, and Z.-F. Jiang, A unified model for the uniaxial and hydrostatic pressure dependence of Tc in YBa2Cu3Ox (x ≈ 6.95–7.0), Computational Materials Science, vol. 153, pp. 268-274, 2018.

[17]J.-J. Cao, X.-F. Gou*, and T.-G. Wang, Electron-phonon interaction and superconductivity in representative AuCu3-type intermetallic compounds, Computational Materials Science, vol. 150, pp. 491-499, 2018.

[18]Y. Xiao, X.-F. Gou*, and D.-G. Zhang, A one-dimension nonlinear hysteretic constitutive model with elasto-thermo-magnetic coupling for giant magnetostrictive materials, Journal of Magnetism and Magnetic Materials, vol. 441, pp. 642-649, 2017.

[19]R. Xiao, C. Zhang, X. Gou*, and W. M. Huang, Tunable shape-memory behaviors in amorphous polymers through bound solvent, Materials Letters, vol. 209, pp. 131-133, 12/15/ 2017.

[20]Z.-F. Jiang, F. Xue, and X.-F. Gou*, Influences of the Bi2Sr2CaCu2Ox/Ag interface and interfilamentary bridge connections on AC loss of composite wires, Physica C: Superconductivity and its Applications, 2017.

[21]J.-J. Cao and X.-F. Gou*, Pressure effect on the mechanical, electronic and thermodynamic properties of Ba2Bi3: First-principle calculations, Journal of Physics and Chemistry of Solids, vol. 104, pp. 293-303, 5// 2017.

[21]P. Zhuo, Z. Zhang, and X. Gou*, Chaotic Motion of a Magnet Levitated Over a Superconductor, IEEE Transactions on Applied Superconductivity, vol. 26, p. 3600406, 2016.

[22]Z.-X. Zhang, F. Xue, and X.-F. Gou*, Interaction of Two Parallel Cracks in REBCO Bulk Superconductors under Applied Magnetic Field, Chinese Physics Letters, vol. 33, p. 077401, 2016.

[23]Y. Yuan, A. Ma, J. Jiang, X. Gou, D. Song, D. Yang, et al., High mechanical properties of rolled ZK60 Mg alloy through pre-equal channel angular pressing, Mechanika, vol. 22, pp. 256-259, 2016.

[24]F. Xue, Z. Zhang, J. Zeng, and X. Gou*, Effect of an Elliptical Inclusion on Critical Current Density of a Long Cylindrical High-Tc Superconductor, Journal of Superconductivity and Novel Magnetism, vol. 29, pp. 2023-2029, 2016.

[25]F. Xue, Z. Zhang, J. Zeng, and X. Gou*, Depairing current density through a low-angle grain boundary in a superconducting film, AIP Advances, vol. 6, p. 055313, 2016.

[26]F. Xue, W. Zhang, J. Zeng, and X. Gou*, Flux-Pinning-Induced Stress and Deformation Analyses of a Long Rectangular Superconducting Bicrystal, Journal of Superconductivity and Novel Magnetism, vol. 29, pp. 2495-2501, 2016.

[27]F. Xue, Y. Gu, and X. Gou*, Critical Current Density Through Grain Boundaries in High-Temperature Superconductors, Journal of Superconductivity and Novel Magnetism, vol. 29, pp. 2711-2716, 2016.

[28]F. Xue and X. Gou*, An Exponential Model for Critical Current Density Through a Low-Angle Grain Boundary in a High-Tc Superconductor, Journal of Superconductivity and Novel Magnetism, vol. 29, pp. 2221-2224, 2016.

[29]R. Xiao, X. Gou*, and W. Chen, Suppression of electromechanical instability in fiber-reinforced dielectric elastomers, AIP Advances, vol. 6, p. 035321, 2016.

[30]C.-Q. Kong, J.-J. Cao, and X.-F. Gou*, First-Principle Study of Structural, Electronic and Magnetic Properties in Pd1−xFexTe (x=0,0.0625,0.125), Journal of Superconductivity and Novel Magnetism, vol. 29, pp. 269-275, 2016.

[31]J.-J. Cao and X.-F. Gou*, First-principles study of electronic structure, phonons and electron-phonon interaction in hexagonal PdTe, Physica C: Superconductivity and its Applications, vol. 520, pp. 19-23, 2016.

[32]Z.-X. Zhang, Q. Shen, and X.-F. Gou*, Influence of the Movement of the Neutral Axis on the Relation Between the Critical Current and Strain in Bending Bi2223/Ag Composite Tapes, Journal of Superconductivity and Novel Magnetism, vol. 28, pp. 3535-3543, 2015 2015.

[33]Y. C. Yuan, A. B. Ma, X. F. Gou, J. H. Jiang, F. M. Lu, D. Song, et al., Superior mechanical properties of ZK60 mg alloy processed by equal channel angular pressing and rolling, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, vol. 630, pp. 45-50, Apr 2015.

[34]F. Xue, Z. X. Zhang, and X. F. Gou*, Fracture behavior of an inclined crack interacting with a circular inclusion in a high-TC superconductor under an electromagnetic force, AIP Advances, vol. 5, p. 117141, Nov 2015.

[35]F. Xue and X. F. Gou*, Crack problem for a bulk superconductor with nonsuperconducting inclusions under an electromagnetic force, AIP Advances, vol. 5, p. 11, Apr 2015.

[36]Z. Sun, X. Gou*, and J. Schwartz, A three-Dimensional Fractal-Based Study of the Effects of the Complex Interface Between Bi2Sr2CaCu2Ox Filaments and the Ag Matrix on the Mechanical Behavior of Composite Round Wires, IEEE Transactions on Applied Superconductivity, vol. 25, pp. 1-8, 2015.

[37]Z.-F. Jiang and X.-F. Gou*, Eddy damping effect of additional conductors in superconducting levitation systems, Physica C: Superconductivity and its Applications, vol. 519, pp. 112-117, 2015.

[38]X. F. Gou* and G. Zhu, A Modified Lattice Model of the Reversible Effect of Axial Strain on the Critical Current of Polycrystalline REBCO Films, Chinese Physics Letters, vol. 32, p. 037401, 2015.

[39]X. F. Gou* and J. Qin, Analytic calculation of magnetic force between two current-carrying coils, Applied Mathematics and Mechanics-English Edition, vol. 36, pp. 475-486, Apr 2015.

[40]J.-J. Cao, X.-F. Gou*, and X.-L. Yuan, The elastic, electronic and thermodynamic properties of PdTe under high pressure from first-principles calculations, Physica C: Superconductivity and its Applications, vol. 509, pp. 34-41, 2/15/ 2015.

[41]Z. Zhang, W. Chen, and X. Gou*, Numerical Studies of Thermally Induced Residual Strain/Stress in Bi2Sr2Ca2Cu3Ox /Ag/Ag Alloy Composite Tapes and the Dependence of Material Properties on the Temperature, Journal of Superconductivity and Novel Magnetism, vol. 27, pp. 1387-1396, 2014.

[42]X. Gou* and X. Zhou, Characterization of the Elastic Properties of Bi2223/Ag/Ag Alloy Composite Tapes by the Generalized Self-Consistent Approach, Journal of Superconductivity and Novel Magnetism, vol. 26, pp. 2115-2119, 2013.

[43]X. Gou* and J. Schwartz, Fractal analysis of the role of the rough interface between Bi2Sr2CaCu2Ox filaments and the Ag matrix in the mechanical behavior of composite round wires, Superconductor Science and Technology, vol. 26, p. 055016, 2013.

 

 

  • 学术论文被评价及引用情况

       学术论文80篇。其中SCI收录70篇。截至目前,研究成果已被国内外同行引用490余篇次。(以上数据来自Google scholar

     

  • 评审的期刊

    作为审稿人评审的期刊主要有,

    SCI期刊:Journal of Applied Physics; Superconductivity Science & Technology; IEEE Transactions on Magnetics; IEEE Transactions on Applied Superconductivity; Physica C; Powder Technology; Theoretical and Applied Mechanics Letters; Spring Plus; Advances in Condensed Matter Physics; Physics Express journal; Journal of Physics D: Applied Physics;ACS Materials Letters;Acta Mechanica Sinica; Acta Mechanica Solida Sinica; Chinese Journal of Physics;Computer Modeling in Engineering & Sciences.

    国内核心:中国科学;计算力学学报;应用数学与力学;计算物理;固体力学学报,以及包括西安交通大学大学学报,浙江大学学报和华南理工大学学报在内的大学学报。

     

  • 学术任职及评审

    1. 国家科学技术奖励、教育部科技奖、江苏省科技奖励评审专家及国家自然科学基金评审专家

    2. The International Association of Engineers (IAENG)-International Journal of Applied Mathematics--- Editorial Board Member

    3. 2010年,应邀出任国际学术期刊Global Journal of Physics Express (印度Simplex Academic Publishers出版)的创刊编委

    4. 力学核心期刊《应用数学与力学》编委 2013.5 -

    5. 江苏力学学会环境与灾害力学专业委员会副主任2013.1-

    6. 中国力学学会计算力学专业委员会委员 2015. 6 -

    7. 河海大学力学与材料学院学术委员会主任2014.12-


个人主页

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