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    江文凯

    发布时间:2023-02-27 08:56 作者: 来源: 访问次数:

     

    姓名:江文凯

    电话15827225655(微信同号)

    职称:讲师

    邮箱:jiangwenk@whpu.edu.cn

    个人基本情况

    江文凯,男,1990年5月生,湖北仙桃人。工学博士,毕业于华中科技大学航空航天学院固体力学专业,2022年进入304永利登录入口。迄今共参与国家自然科学基金两项。在Philosophical Magazine》、《Journal of Applied Physics》与《The European Physical Journal D》等期刊上发表SCI论文7篇。

    主要研究方向

    铁电材料极化畴工程学

    多场/多尺度耦合的数值模拟方法

    开设课程

    《材料力学》

    近年的科研项目、专著与论文、专利、获奖

    科研项目:

    [1] 国家自然科学基金项目项目,低维铁电材料极化漩涡畴形成和演化的定量表征和判据,2016-2019,参与

    [2] 国家自然科学基金项目项目,循环载荷作用下纳米晶金属晶界迁移滞回行为及其内在机制2018-2021,参与

    代表性论文:

    [1] Wenkai Jiang, Xinhua Yang, and Di Peng. Intensity characterisation of polarisation vortex formation and evolution in ferroelectric nanofilms[J]. Philosophical Magazine, vol. 101, no. 6, pp. 673-688, 2021.(SCI  Q2)

    [2] Wenkai Jiang, Xinhua Yang, Di Peng, and Xiaobao Tian. Stability of polarisation vortex in ferroelectric nanofilm under stress or curled electric field[J]. Philosophical Magazine, vol. 101, no. 17, pp. 1965-1984, 2021.(SCI  Q2)

    [3] Wenkai Jiang, Xinhua Yang, Di Peng, and Xiaobao Tian. Size and temperature-dependent stability of polarization vortex in PbTiO3 nanosheet under uniaxial tension or compression[J]. Philosophical Magazine, vol. 102, no. 14, pp. 1400-1418, 2022.(SCI  Q2)

    [4] Xinhua Yang, Jian Hu, and Wenkai Jiang*. Stability and interatomic potentials for M-doped TiV alloys (M=H, He, C, O) by first-principles simulations[J]. The European Physical Journal D, vol. 73, no. 11, pp.238, 2019.(SCI  Q3)  

    [5] Di Peng, Xinhua Yang, and Wenkai Jiang. Exotic closure domains induced by oxygen vacancies in compressed BaTiO3 nanofilm[J]. Journal of Applied Physics, vol. 128, no. 5, pp. 054103, 2020.(SCI  Q2)

    [6] Di Peng, Xinhua Yang, and Wenkai Jiang. Three-dimensional polarization vortex configuration evolution in compressed BaTiO3/SrTiO3 superlattice[J]. Journal of Applied Physics, vol. 126, no. 24, pp. 244101, 2019.(SCI  Q2)

    [7] Di Peng, Xinhua Yang, and Wenkai Jiang. Molecular dynamics simulations of  void-mediated vortex switching in compressed BaTiO3 nanofilm[J]. Journal of Applied Physics, vol. 130, no. 3, pp. 034101, 2021.(SCI  Q2)