黄玮

的个人主页 http://teacher.nwpu.edu.cn/DEE5574303DC4658A774159BD3E6CD6B

  被浏览次数:6787

基本信息 The basic information

黄玮

航空学院

博士研究生毕业

工学博士

副教授

力学-固体力学

huangwei@nwpu.edu.cn

工作经历 Work Experience

2016.11-至今,西北工业大学,航空学院,副教授,硕导

2013.01-2016.10,新加坡高性能计算研究院,工程力学部,研究员

2010.10-2012.10,里斯本理工大学,海洋工程技术中心,访问学者,合作导师:Prof. Carlos Guedes Soares

2009.05-2010.10,西安交通大学,航天航空学院,博士后,合作导师:王铁军教授

教育经历 Education Experience

2004/09–2009/04,西北工业大学,飞行器设计,博士,导师:孙秦教授

2002/09–2005/04,西北工业大学,飞行器设计,硕士,导师:冯蕴雯教授

1998/09–2002/07,西北工业大学,飞行器设计,学士 

教育教学 Education And Teaching

主讲本科生课程

 《飞行器结构力学基础》,专业核心课,56学时,全英文

主讲研究生课程

 《工程断裂力学:基础、应用与计算》,专业选修课,40学时,中英双语


科学研究 Scientific Research

主要研究方向

  1.飞行器结构的损伤容限特性分析方法研究;

  2.连接结构的疲劳断裂可靠性评估方法研究;

  3.断裂相场方法的算法实现、改进及应用研究;

  4.激光增材制造结构/点阵结构超材料的力学性能及失效机理研究。


科研基金与项目

  1.基于相场方法的增材制造钛合金点阵结构的断裂与失效行为研究,国家自然科学基金面上项目,2022/01-2025/12,主持;

  2.大迎角/尾旋教学演示系统,中国飞行试验研究院项目(国家级纵向),2020/07-2023/06,主持;

  3.多构型飞行器概念方案研究,成都飞机设计研究所项目,2021/01-2022/12,主持;

  4.某型集流环动部件的疲劳寿命评估,武汉航空仪表责任有限公司项目,2021/07-2022/06,主持;

  5.基于相场法的镍基合金瞬时液相扩散焊接头的力学性能评估,陕西省自然科学研究计划面上项目,2019/01-2020/12,主持;

  6.非均匀腐蚀和疲劳损伤耦合下铆钉连接结构的风险评估研究,中央高校基本科研业务启动项目,2017/01-2018/12,主持;

  7.无人机气动布局优化设计,成都飞机设计研究所项目,2021/07-2023/06,参与;

  8.航空发动机用增材制造钛合金的高温疲劳和蠕变断裂行为及其失效机理,国家自然科学基金重大研究计划,2019/01-2021/12,参与;

  9.高应变率拉压载荷下二维三轴编制复合材料的动态损伤行为及失效机理研究,国家自然科学基金面上项目,2018/01-2021/12,参与;

 10.3D激光增材制造钛合金结构的疲劳断裂失效本征特性研究,陕西省自然科学研究国际科技合作与交流项目,2018/01-2019/12,参与。


  


学术成果 Academic Achievements

[1]  Yidong Guo, Wei Huang*, Yu-E Ma. Buckling pattern transition of periodic porous elastomers induced by proportional loading conditions [J]. International Journal of Applied, Mechanics, 2021, DOI:10.1142/S1758825121500678. 

[2] Fan Peng, Wei Huang*, Yu E Ma, et al. Fourth-order phase field model with spectral decomposition for simulating fracture in hyperelastic material [J]. Fatigue & Fracture of Engineering Materials & Structures, 2021, 44(9): 2372-2388.

[3] Fan Peng, Wei Huang*, Zhi-Qian Zhang, et al. Conservational integrals of the fourth-order phase field model for brittle fracture via Noether theorem [J]. Engineering Fracture Mechanics, 2021, 245: 107590.

[4] Fan Peng, Wei Huang*, Y. E. Ma, et al. Phase Field modeling of brittle fracture based on the cell-based smooth FEM by considering spectral decomposition [J]. International Journal of Computational Methods, 2021, 18(2): 2050016.

[5] Fan Peng, Wei Huang*, Zhi-Qian Zhang, et al. Phase field simulation for fracture behavior of hyperelastic material at large deformation based on edge-based smoothed finite element method [J]. Engineering Fracture Mechanics, 2020, 238: 107233.

[6] Zhigang Liu, Ping Liu, Wei Huang, Wei Hin Wong, et al. Mechanical and failure behaviors of lattice–plate hybrid structures [J]. MRS Communications, 2020, 10: 42–54.

[7] Wenbo Sun, Yu'e Ma, Wei Huang, et al. Effects of build direction on tensile and fatigue performance of selective laser melting ti6al4v titanium alloy [J]. International Journal of Fatigue, 2019, 130: 105260.

[8] Arturo J. Mateos, Wei Huang#, Yong-Wei Zhang, Julia R. Greer, Discrete-Continuum Duality of Architected Materials: Failure, Flaws, and Fracture [J]. Advanced Functional Materials, 2019, 29(5): 1806772.

[9] Zhigang Liu, Ping Liu, Wei Huang, Yong-Wei Zhang. A nanolattice-plate hybrid structure to achieve a nearly linear relation between stiffness/strength and density [J]. Materials and Design, 2018, 160: 496-502.

[10] Ping Liu, Qing-Xiang Pei, Wei Huang, Yong-Wei Zhang. Strength and buckling behavior of defective phosphorene nanotubes under axial compression [J]. Journal of Materials Science, 2018, 53: 8355-8363.

[11] Z.G. Liu, T.I. Wong, W. Huang, N. Sridhar, S.J. Wang. Effect of surface polishing treatment on the fatigue performance of shot-peened Ti-6Al-4V alloy [J]. Acta Metallurgica Sinica, 2017, 30(7): 630-640.

[12] Ping Liu, Qing-Xiang Pei, Wei Huang, Yong-Wei Zhang.  Mechanical properties and fracture behaviour of defective phosphorene nanotubes under uniaxial tension [J]. Journal of Physics D: Applied Physics, 2017, 50(48): 485303.

[13] Wei Huang, N. Sridhar. Fatigue Failure Risk Assessment for a Maintained Stiffener-Frame Welded Structure with Multiple Site Cracks [J]. Internat ional Journal of Applied Mechanics, 2016, 8(2): 650024.

[14] Wei Huang, Y. Garbatov, C. Guedes Soares. Fatigue reliability of a web frame subjected to random non-uniform corrosion wastage [J]. Structural Safety, 2014, 48: 51-62.

[15] Wei Huang, Y. Garbatov, C. Guedes Soares. Fatigue reliability assessment of a complex welded structure subjected to multiple cracks [J]. Engineering Structures, 2013, 56(6): 868-879.

[16] Wei Huang, Y. Garbatov, C. Guedes Soares. Fatigue reliability assessment of correlated welded web-frame joints [J]. Journal of Marine Science and Application, 2014, 13(01): 23-31.

[17] Wei Huang, Tie-Jun Wang, Y. Garbatov, C. Guedes Soares. DFR based fatigue reliability assessment of riveted lap joint accounting for correlations [J]. International Journal of Fatigue, 2013, 47(2): 106-114.

[18] Wei Huang, Tie-Jun Wang, Y. Garbatov, C. Guedes Soares. Fatigue reliability assessment of riveted lap joint of aircraft structures [J]. International Journal of Fatigue, 2012, 43(1): 54-61.


学术文献 Academic Literature

学术活动 Professional Activities