导师风采

‹‹

硕导

性别 民族
出生年月 1978.07 职称 教授
职务 导师资格 博导、硕导
电话 联系地址
E-mail huheng@whu.edu.cn 姓 名
教育经历 2003至2006年:法国梅斯大学 (Université Paul Verlaine-Metz) 力学博士<br>
2002至2003年:法国勃艮第大学 (Université de Bourgogne) 工学硕士<br>
2001至2003年:法国汽车与交通学院 (Institut Supérieur de l’Automobile et des Transports) 工程师学位<br>
2000至2003年:武汉理工大学工学硕士<br>
1996至2000年:武汉理工大学工学学士<br>
工作经历 2024.01至今,宁夏大学数学统计学院二级教授<br>
2016.12 至2024.03,武汉大学土木建筑工程学院副院长<br>
2014.01 至2017.04,武汉大学土木建筑工程学院工程力学系主任<br>
2007.12—2023.12,武汉大学土木建筑工程学院工程力学系任教(2007年聘为副教授,2011年聘为教授,2019年聘为三级教授,入选2022年教育部长江学者特聘教授)<br>
2006.10—2007.11,法国巴黎综合理工博士后
研究方向 数据驱动计算力学,量子计算,多尺度建模与跨尺度关联,薄壁结构稳定性 承担项目 主持国家自然科学基金重点项目1项、重点国际合作研究项目1项、面上项目2项、青年项目1项<br>
主持国家重点研发计划重点专项1项<br>
主持国防科技173计划技术领域基金项目1项<br>
主持湖北省国际合作(中法)重点项目1项<br>
主持湖北省自然科学基金重点项目1项<br>
合作主持卢森堡国家科学基金国际交流项目3项
科研成果 1.Xu, Y., Kuang, Z., Yang, J., Huang, Q., Huang, W., Hu, H.*, 2024. Quantum computing enhanced distance-minimizing data-driven computational mechanics, Computer Methods in Applied Mechanics and Engineering 419, 116675.<br>
2.Xu, Y., Yang, J., Bai, X., Huang, Q., Damil, N., Hu, H.*, 2023. Material database construction for data-driven computing via a continuous path-following method, Composite Structures 319, 117187.<br>
3.Li L., Shao, Q., Yang, Y., Kuang, Z., Yan, W., Yang, J., Makradi, A., Hu, H.*, 2023. A database construction method for data-driven computational mechanics of composites. International Journal of Mechanical Sciences 249, 108232.<br>
4.Yang, J., Li, P., Zhang, Y., Hui, Y., Xu, L., Damil, N., Hu, H.*, 2023. Unified functional based data-model-coupling computing for composite materials and structures, Composite Structures 312, 116840.<br>
5.Yang, Y., Hui, Y., Li, P., Yang, J., Huang, Q., Gaetano, G., Belouettar, S., Hu, H.*, 2023. Global/local buckling analysis of thin-walled I-section beams via hierarchical one-dimensional finite elements, Engineering Structures 280, 115705. <br>
6.Bai, X., Yang, J., Yan, W., Belouettar S., Hu, H.*, 2022. A data-driven approach for instability analysis of thin composite structures. Computers and Structures 273, 106898. <br>
7.Huang, Q., Huang, W., Yang, J., Potier-Ferry, M., Belouettar S., Hu, H.*, 2022. Analysis of membrane instability with a two-parameter extended system. International Journal of Solids and Structures 249, 111693. <br>
8.Yang, J., Huang, W., Huang, Q., Hu, H.*, 2022. An investigation on the coupling of data-driven computing and model-driven computing. Computer Methods in Applied Mechanics and Engineering 393, 114798.<br>
9.Yan, W., Huang, W., Huang, Q., Yang, J., Giunta G., Belouettar S., Hu, H.*, 2022. Data-driven multiscale method for composite plates. Computational Mechanics, DOI: https://doi.org/10.1007/s00466-022-02195-6.<br>
10.Kuang, Z., Huang, Q., Huang, W., Yang, J., Zahrouni, H., Potier-Ferry, M., Hu, H.*, 2021. A computational framework for multi-stability analysis of laminated shells. Journal of the Mechanics and Physics of Solids 149, 104317.<br>
11.Huang, W., Xu, R., Yang, J., Huang Q., Hu, H.*, 2021. Data-driven multiscale simulation of FRP based on material twins, Composite Structures 256, 113013.<br>
12.阳杰, 白晓伟, 颜巍, 黄威, 黄群, 邵倩, 胡衡*, 2021. 基于分层数据搜索的数据驱动算法研究. 固体力学学报, DOI: 10.19636/j.cnki.cjsm42-1250/o3.2020.052.<br>
13.Huang Q., Yang J., Giunta G., Belouettar S., Hu, H.*, 2020. The boundary effects on stretch-induced membrane wrinkling. Thin-Walled Structures 154, 106838.<br>
14.Xu, R., Yang, J., Yan W., Giunta, G., Belouettar, S., Zahrouni, H., Ben Zineb, T., Hu, H.*, 2020. Data-driven multiscale finite element method: From concurrence to separation. Computer Methods in Applied Mechanics and Engineering 363, 112893.<br>
15.阳杰, 徐锐, 黄群, 邵倩, 黄威, 胡衡*, 2020. 数据驱动计算力学研究进展. 固体力学学报 41, 1-14.<br>
16.Yang, J., Koutsawa, Y., Potier-Ferry, M., Hu, H.*, 2020. Changing variables in Taylor series with applications to PDEs. Engineering Analysis with Boundary Elements 112, 77-86.<br>
17.Huang, W., Causse, P., Hu, H.*, Belouettar S., Trochu, F.*, 2020. Transverse compaction of 2D glass woven fabrics based on material twins – Part II: Tow and fabric deformations, Composite Structures 237, 111963.<br>
18.Huang, W., Causse, P., Hu, H.*, Belouettar S., Trochu, F.*, 2020. Transverse compaction of 2D glass woven fabrics based on material twins – Part I: Geometric Analysis, Composite Structures 237, 111929.<br>
19.Huang, Q., Choe, J., Yang, J., Xu, R., Hui, Y., 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.<br>
20.Huang, W., Causse, P., Hu, H.*, Trochu, F., 2019. Numerical and Experimental Investigation of Saturated Transverse Permeability of 2D Woven Glass Fabrics Based on Material Twins, Polymer Composites 41, 1341-1355.<br>
21.Huang, W., Causse, P., Brailovski, V., Hu, H.*, Trochu, F., 2019. Reconstruction of Mesostructural Material Twin Models of Engineering Textiles based on Micro-CT Aided Geometric Modeling, Composites Part A: Applied Science and Manufacturing 124, 105481.<br>
22.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.<br>
23.Hui Y., Xu R., Giunta G., De Pietro G., Hu, H.*, Belouettar S., Carrera, E., 2019. Multiscale CUF-FE2 nonlinear analysis of composite beam structures. Computers and Structures, 28-43.<br>
24.Huang, Q., Kuang, Z., Hu, H.*, Potier-Ferry, M., 2019. Multiscale analysis of membrane instability by using the Arlequin method, International Journal of Solids and Structures 162, 60-75. <br>
25.Yang, J., Xu, R., Hu, H.*, Huang, Q., Huang, W., 2019. Structural-Genome-Driven computing for composite structures. Composite Structures 215, 446-453.<br>
26.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.<br>
27.Xu, R., Hui, Y., Hu, H.*, Zahrouni, H., Ben Zineb, T., Potier-Ferry, M., 2019. A Fourier-related FE2 Multiscale Model for Instability Phenomena of Long Fiber Reinforced Materials. Composite Structures 211, 530-539.<br>
28.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.<br>
29.Yang, J., Potier-Ferry, M., Hu, H.*, 2019. Least-square collocation and Lagrange multipliers for Taylor Meshless Method. Numerical Methods for Partial Differential Equations 35: 84-113.<br>
30.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: 10.1080/15376494.2018.1546415.<br>
31.Xu, R., Bouby, C., Zahrouni, H., Ben Zineb, T., Hu, H.*, Potier-Ferry, M., 2018. 3D modeling of shape memory alloy fiber reinforced composites by multiscale finite element method. Composite Structures 200, 408-419.<br>
32.Yang, J., Hu, H.*, Potier-Ferry, M., 2018. Computing singular solutions of partial differential equations by Taylor series. Comptes Rendus Mecanique 346, 603-614.<br>
33.Liu, Y., Liang, S.-Y., Huang, Q., Hu, H.*, Zheng, Y.-G., Zhang, H.-W., 2017. A robust Riks-like path following method for strain-actuated snap-through phenomena in soft solids, Computer Methods in Applied Mechanics and Engineering 323, 416–438.<br>
34.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.<br>
35.Yang, J., Hu, H.*, Potier-Ferry, M., 2017. Solving large scale problems by Taylor Meshless Method. International Journal for Numerical Methods in Engineering 112, 103-124.<br>
36.Huang, Q., Liu, Y., Hu, H.*, Shao, Q., Giunta, G., Belouettar, S., Potier-Ferry, M., 2017. A Fourier-related double scale analysis on the instability phenomena of sandwich plates, Computer Methods in Applied Mechanics and Engineering 318, 270-295.<br>
37.Huang, Q., Xu, R., Liu, Y., Hu, H.*, Giunta, G., Belouettar, S. Potier-Ferry, M., 2017. A two-dimensional Fourier-series finite element for wrinkling analysis of thin films on compliant substrates, Thin-walled Structures 114, 244-153.<br>
38.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.<br>
39.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. <br>
40.Huang, Q., Hu, H.*, Kun Yu, Potier-Ferry, M., Belouettar, S., Damil, N., 2015. Macroscopic simulation of membrane wrinkling for various loading cases. International Journal of Solids and Structures 64-65, 246-258.<br>
41.Yu, K., Hu, H.*, Tang, H., Giunta, G., Potier-Ferry, M., Belouettar, S., 2015. A novel two-dimensional finite element to study the instability phenomena of sandwich plates. Computer Methods in Applied Mechanics and Engineering 283, 1117-1137. <br>
42.Yu, K., Hu, H.*, Chen S., Belouettar, S., Potier-Ferry, M., 2013. Multi-scale techniques to analyz instabilities in sandwich structures. Composite Structures 96, 751-762. <br>
43.Liu, Y., Yu, K., Hu, H.*, Belouettar, S., Potier-Ferry, M., Damil, N., 2012. A new Fourier-related double-scale analysis on instability phenomena of sandwich structures. International Journal of Solids and Structures 49, 3077-3088.<br>
44.Hu, H., Damil, N., Potier-Ferry, M., 2011. A bridging technique to analyze the influence of boundary conditions on instability patterns. Journal of Computational Physics 230, 3753-3764, 2011.<br>
45.He, Q. Z., Hu, H.*, Belouettar, S., Giunta, G., Yu, K., Liu, Y., Carrera, E., Potier-Ferry, M., 2011. Multi-scale modelling of sandwich structures using hierarchical kinematics. Composite Structures 93, 2375-2383.<br>
46.Hu, H., Belouettar, S., Potier-Ferry, M., Makradi, A., Koutsawa, Y., 2011. Assessment of various kinematic models for instability analysis of sandwich beams. Engineering Structures 33, 572-579.<br>
47.Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E. M., Makradi, A., 2010. Multi-scale nonlinear modelling of sandwich structures using the Arlequin method. Composite Structures 92, 515-522.<br>
48.Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E. M., Makradi, A., 2009. A novel finite element for local and global buckling analysis of sandwich structures. Composite Structures 90, 270-278.<br>
49.Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E. M., Makradi, A., 2009. Multi-scale modelling of sandwich structures using the Arlequin method -Part I: linear modelling. Finite Element in Analysis and Design 45, 37-51.<br>
50.Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E. M., 2008. Review and assessment of various theories for modeling sandwich structures. Composite Structures 84, 282-292.<br>
51.Hu, H., Belouettar, S., Daya, E. M., Potier-Ferry, M., 2006. Evaluation of kinematic formulations for viscoelastically sandwich beam modelling. Journal of Sandwich Structures and Materials 8: 477-495.
学术任职 SCI期刊Composite Structures联席主编(Co Editor-in-chief)<br>
SCI期刊Mechanics of Advanced Materials and Structures编委 <br>
SCI期刊Composites Part C编委<br>
《力学进展》编委<br>
《宁夏大学学报》编委<br>
国际计算力学学会理事(General Council Membre, IACM)<br>
中国力学学会理事<br>
湖北省力学学会副理事长/学术委员会主任委员
其它 职 责

基本信息

  • 姓名:胡衡性别:男
  • 出生年月:1978.07职称/职务:教授
  • 导师资格:博导、硕导电话:
  • 联系地址:E-mail:huheng@whu.edu.cn
2003至2006年:法国梅斯大学 (Université Paul Verlaine-Metz) 力学博士
2002至2003年:法国勃艮第大学 (Université de Bourgogne) 工学硕士
2001至2003年:法国汽车与交通学院 (Institut Supérieur de l’Automobile et des Transports) 工程师学位
2000至2003年:武汉理工大学工学硕士
1996至2000年:武汉理工大学工学学士
2024.01至今,宁夏大学数学统计学院二级教授
2016.12 至2024.03,武汉大学土木建筑工程学院副院长
2014.01 至2017.04,武汉大学土木建筑工程学院工程力学系主任
2007.12—2023.12,武汉大学土木建筑工程学院工程力学系任教(2007年聘为副教授,2011年聘为教授,2019年聘为三级教授,入选2022年教育部长江学者特聘教授)
2006.10—2007.11,法国巴黎综合理工博士后
数据驱动计算力学,量子计算,多尺度建模与跨尺度关联,薄壁结构稳定性
主持国家自然科学基金重点项目1项、重点国际合作研究项目1项、面上项目2项、青年项目1项
主持国家重点研发计划重点专项1项
主持国防科技173计划技术领域基金项目1项
主持湖北省国际合作(中法)重点项目1项
主持湖北省自然科学基金重点项目1项
合作主持卢森堡国家科学基金国际交流项目3项
1.Xu, Y., Kuang, Z., Yang, J., Huang, Q., Huang, W., Hu, H.*, 2024. Quantum computing enhanced distance-minimizing data-driven computational mechanics, Computer Methods in Applied Mechanics and Engineering 419, 116675.
2.Xu, Y., Yang, J., Bai, X., Huang, Q., Damil, N., Hu, H.*, 2023. Material database construction for data-driven computing via a continuous path-following method, Composite Structures 319, 117187.
3.Li L., Shao, Q., Yang, Y., Kuang, Z., Yan, W., Yang, J., Makradi, A., Hu, H.*, 2023. A database construction method for data-driven computational mechanics of composites. International Journal of Mechanical Sciences 249, 108232.
4.Yang, J., Li, P., Zhang, Y., Hui, Y., Xu, L., Damil, N., Hu, H.*, 2023. Unified functional based data-model-coupling computing for composite materials and structures, Composite Structures 312, 116840.
5.Yang, Y., Hui, Y., Li, P., Yang, J., Huang, Q., Gaetano, G., Belouettar, S., Hu, H.*, 2023. Global/local buckling analysis of thin-walled I-section beams via hierarchical one-dimensional finite elements, Engineering Structures 280, 115705.
6.Bai, X., Yang, J., Yan, W., Belouettar S., Hu, H.*, 2022. A data-driven approach for instability analysis of thin composite structures. Computers and Structures 273, 106898.
7.Huang, Q., Huang, W., Yang, J., Potier-Ferry, M., Belouettar S., Hu, H.*, 2022. Analysis of membrane instability with a two-parameter extended system. International Journal of Solids and Structures 249, 111693.
8.Yang, J., Huang, W., Huang, Q., Hu, H.*, 2022. An investigation on the coupling of data-driven computing and model-driven computing. Computer Methods in Applied Mechanics and Engineering 393, 114798.
9.Yan, W., Huang, W., Huang, Q., Yang, J., Giunta G., Belouettar S., Hu, H.*, 2022. Data-driven multiscale method for composite plates. Computational Mechanics, DOI: https://doi.org/10.1007/s00466-022-02195-6.
10.Kuang, Z., Huang, Q., Huang, W., Yang, J., Zahrouni, H., Potier-Ferry, M., Hu, H.*, 2021. A computational framework for multi-stability analysis of laminated shells. Journal of the Mechanics and Physics of Solids 149, 104317.
11.Huang, W., Xu, R., Yang, J., Huang Q., Hu, H.*, 2021. Data-driven multiscale simulation of FRP based on material twins, Composite Structures 256, 113013.
12.阳杰, 白晓伟, 颜巍, 黄威, 黄群, 邵倩, 胡衡*, 2021. 基于分层数据搜索的数据驱动算法研究. 固体力学学报, DOI: 10.19636/j.cnki.cjsm42-1250/o3.2020.052.
13.Huang Q., Yang J., Giunta G., Belouettar S., Hu, H.*, 2020. The boundary effects on stretch-induced membrane wrinkling. Thin-Walled Structures 154, 106838.
14.Xu, R., Yang, J., Yan W., Giunta, G., Belouettar, S., Zahrouni, H., Ben Zineb, T., Hu, H.*, 2020. Data-driven multiscale finite element method: From concurrence to separation. Computer Methods in Applied Mechanics and Engineering 363, 112893.
15.阳杰, 徐锐, 黄群, 邵倩, 黄威, 胡衡*, 2020. 数据驱动计算力学研究进展. 固体力学学报 41, 1-14.
16.Yang, J., Koutsawa, Y., Potier-Ferry, M., Hu, H.*, 2020. Changing variables in Taylor series with applications to PDEs. Engineering Analysis with Boundary Elements 112, 77-86.
17.Huang, W., Causse, P., Hu, H.*, Belouettar S., Trochu, F.*, 2020. Transverse compaction of 2D glass woven fabrics based on material twins – Part II: Tow and fabric deformations, Composite Structures 237, 111963.
18.Huang, W., Causse, P., Hu, H.*, Belouettar S., Trochu, F.*, 2020. Transverse compaction of 2D glass woven fabrics based on material twins – Part I: Geometric Analysis, Composite Structures 237, 111929.
19.Huang, Q., Choe, J., Yang, J., Xu, R., Hui, Y., 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.
20.Huang, W., Causse, P., Hu, H.*, Trochu, F., 2019. Numerical and Experimental Investigation of Saturated Transverse Permeability of 2D Woven Glass Fabrics Based on Material Twins, Polymer Composites 41, 1341-1355.
21.Huang, W., Causse, P., Brailovski, V., Hu, H.*, Trochu, F., 2019. Reconstruction of Mesostructural Material Twin Models of Engineering Textiles based on Micro-CT Aided Geometric Modeling, Composites Part A: Applied Science and Manufacturing 124, 105481.
22.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.
23.Hui Y., Xu R., Giunta G., De Pietro G., Hu, H.*, Belouettar S., Carrera, E., 2019. Multiscale CUF-FE2 nonlinear analysis of composite beam structures. Computers and Structures, 28-43.
24.Huang, Q., Kuang, Z., Hu, H.*, Potier-Ferry, M., 2019. Multiscale analysis of membrane instability by using the Arlequin method, International Journal of Solids and Structures 162, 60-75.
25.Yang, J., Xu, R., Hu, H.*, Huang, Q., Huang, W., 2019. Structural-Genome-Driven computing for composite structures. Composite Structures 215, 446-453.
26.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.
27.Xu, R., Hui, Y., Hu, H.*, Zahrouni, H., Ben Zineb, T., Potier-Ferry, M., 2019. A Fourier-related FE2 Multiscale Model for Instability Phenomena of Long Fiber Reinforced Materials. Composite Structures 211, 530-539.
28.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.
29.Yang, J., Potier-Ferry, M., Hu, H.*, 2019. Least-square collocation and Lagrange multipliers for Taylor Meshless Method. Numerical Methods for Partial Differential Equations 35: 84-113.
30.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: 10.1080/15376494.2018.1546415.
31.Xu, R., Bouby, C., Zahrouni, H., Ben Zineb, T., Hu, H.*, Potier-Ferry, M., 2018. 3D modeling of shape memory alloy fiber reinforced composites by multiscale finite element method. Composite Structures 200, 408-419.
32.Yang, J., Hu, H.*, Potier-Ferry, M., 2018. Computing singular solutions of partial differential equations by Taylor series. Comptes Rendus Mecanique 346, 603-614.
33.Liu, Y., Liang, S.-Y., Huang, Q., Hu, H.*, Zheng, Y.-G., Zhang, H.-W., 2017. A robust Riks-like path following method for strain-actuated snap-through phenomena in soft solids, Computer Methods in Applied Mechanics and Engineering 323, 416–438.
34.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.
35.Yang, J., Hu, H.*, Potier-Ferry, M., 2017. Solving large scale problems by Taylor Meshless Method. International Journal for Numerical Methods in Engineering 112, 103-124.
36.Huang, Q., Liu, Y., Hu, H.*, Shao, Q., Giunta, G., Belouettar, S., Potier-Ferry, M., 2017. A Fourier-related double scale analysis on the instability phenomena of sandwich plates, Computer Methods in Applied Mechanics and Engineering 318, 270-295.
37.Huang, Q., Xu, R., Liu, Y., Hu, H.*, Giunta, G., Belouettar, S. Potier-Ferry, M., 2017. A two-dimensional Fourier-series finite element for wrinkling analysis of thin films on compliant substrates, Thin-walled Structures 114, 244-153.
38.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.
39.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.
40.Huang, Q., Hu, H.*, Kun Yu, Potier-Ferry, M., Belouettar, S., Damil, N., 2015. Macroscopic simulation of membrane wrinkling for various loading cases. International Journal of Solids and Structures 64-65, 246-258.
41.Yu, K., Hu, H.*, Tang, H., Giunta, G., Potier-Ferry, M., Belouettar, S., 2015. A novel two-dimensional finite element to study the instability phenomena of sandwich plates. Computer Methods in Applied Mechanics and Engineering 283, 1117-1137.
42.Yu, K., Hu, H.*, Chen S., Belouettar, S., Potier-Ferry, M., 2013. Multi-scale techniques to analyz instabilities in sandwich structures. Composite Structures 96, 751-762.
43.Liu, Y., Yu, K., Hu, H.*, Belouettar, S., Potier-Ferry, M., Damil, N., 2012. A new Fourier-related double-scale analysis on instability phenomena of sandwich structures. International Journal of Solids and Structures 49, 3077-3088.
44.Hu, H., Damil, N., Potier-Ferry, M., 2011. A bridging technique to analyze the influence of boundary conditions on instability patterns. Journal of Computational Physics 230, 3753-3764, 2011.
45.He, Q. Z., Hu, H.*, Belouettar, S., Giunta, G., Yu, K., Liu, Y., Carrera, E., Potier-Ferry, M., 2011. Multi-scale modelling of sandwich structures using hierarchical kinematics. Composite Structures 93, 2375-2383.
46.Hu, H., Belouettar, S., Potier-Ferry, M., Makradi, A., Koutsawa, Y., 2011. Assessment of various kinematic models for instability analysis of sandwich beams. Engineering Structures 33, 572-579.
47.Hu, H., Belouettar, S., Potier-Ferry, M., Daya, E. M., Makradi, A., 2010. Multi-scale nonlinear modelling of sandwich structures using the Arlequin method. Composite Structures 92, 515-522.
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SCI期刊Composite Structures联席主编(Co Editor-in-chief)
SCI期刊Mechanics of Advanced Materials and Structures编委
SCI期刊Composites Part C编委
《力学进展》编委
《宁夏大学学报》编委
国际计算力学学会理事(General Council Membre, IACM)
中国力学学会理事
湖北省力学学会副理事长/学术委员会主任委员