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陽傑

(武漢大學特聘副研究員)

鎖定
陽傑,男,1990年生,武漢大學土木建築工程學院特聘副研究員。 [1] 
中文名
陽傑
國    籍
中國
出生日期
1990年6月
畢業院校
武漢大學
洛林大學
學位/學歷
博士
職    業
教師
專業方向
力學
職    務
副研究員
任職院校
武漢大學土木建築工程學院

目錄

  1. 1 人物經歷
  2. 學習經歷
  3. 任職經歷
  4. 2 研究方向
  5. 3 主要論文

陽傑人物經歷

陽傑學習經歷

2014年12月—2018年01月,法國洛林大學,力學,博士
2012年09月—2017年06月,武漢大學,固體力學,博士
2008年09月—2012年06月,武漢大學,工程力學,學士

陽傑任職經歷

2019年03月-,武漢大學土木建築工程學院,特聘副研究員
2017年10月—2018年09月,法國洛林大學,博士後 [1] 

陽傑研究方向

1、數據驅動計算力學
2、無網格方法 [1] 

陽傑主要論文

[1] Yang, J.*, Potier-Ferry, M., Akpama, K., Hu, H., Koutsawa, Y., Tian, H. Zézé, D. S., 2019. Trefftz methods and Taylor series. Archives of Computational Methods in Engineering.
[2] Yang, J., Xu, R., Hu, H., Huang, Q., Huang, W., 2019. Structural-Genome-Driven computing for composite structures. Composite Structures, 215, 446-453.
[3] Yang, J., Potier-Ferry, M., Hu, H., 2019. Solving the stationary Navier-Stokes equations by using Taylor meshless method. Engineering Analysis with Boundary Elements, 98, 8-16.
[4] Yang, J., Hu, H., Potier-Ferry, M., 2019. Least-squares collocation and Lagrange multiplier methods for Taylor meshless method. Numerical Methods for Partial Differential Equations, 35(1), 84-113.
[5] Huang, W., Huang, Q., Liu, Y., Yang, J., Hu, H., Trochu, F., Causse, P., 2019. A Fourier based reduced model for wrinkling analysis of circular membranes. Computer Methods in Applied Mechanics and Engineering, 345, 1114-1137.
[6] Huang, Q., Choe, J., Yang, J., Hui, Y., Xu, R., Hu, H., 2019. An efficient approach for post-buckling analysis of sandwich structures with elastic-plastic material behavior. International Journal of Engineering Science, 142, 20-35.
[7] Huang, Q., Choe, J., Yang, J., Xu, R., Hui, Y., Hu, H., 2019. The effects of kinematics on post-buckling analysis of sandwich structures. Thin-Walled Structures, 143, 106204.
[8] Choe, J., Huang, Q.*, Yang, J.*, Hu, H., 2018. An efficient approach to investigate the post-buckling behaviors of sandwich structures. Composite Structures, 201, 377-388.
[9] Yang, J., Hu, H., Potier-Ferry, M., 2018. Computing singular solutions of partial differential equations by Taylor series. Comptes Rendus Mecanique, 346 (7), 603-614.
[10] Shao, Q., Liu, J., Huang, Q., Yang, J., Hu, H., Belouettar, S., Giunta, G., 2018. A data-driven analysis on bridging techniques for heterogeneous materials and structures. Mechanics of Advanced Materials and Structures, Doi: https://doi.org/10.1080/15376494.2018.1546415.
[11] Yang, J., Hu, H., Koutsawa, Y., Potier-Ferry, M., 2017. Taylor meshless method for solving non-linear partial differential equations. Journal of Computational Physics, 348, 385-400.
[12] Yang, J., Hu, H., Potier-Ferry, M., 2017. Solving large scale problems by Taylor Meshless Method. International Journal for Numerical Methods in Engineering, 112(2), 103-124.
[13] Huang, Q., Yang, J., Huang, W., Liu, Y., Hu, H., Giunta, G., Belouettar, S., 2016. A new Fourier-related double scale analysis for wrinkling analysis of thin films on compliant substrates. Composite Structures, 160, 613-624.
[14] Yang, J., Huang, Q., Hu, H., Giunta, G., Belouettar, S., Potier-Ferry, M., 2015. A new family of finite elements for wrinkling analysis of thin films on compliant substrates. Composite Structures, 119, 568-577. [1] 
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