温伟斌

特聘副教授 博士生导师 硕士生导师

入职时间:2018-04-26

所在单位:土木工程学院

学历:博士研究生毕业

办公地点:中南大学铁道学院

联系方式:Email: wenwbin@csu.edu.cn

学位:博士学位

在职信息:在职

毕业院校:重庆大学

   

个人简介

  • 一、个人简介

温伟斌,男,博士,副教授,博士生导师。2014年12月于重庆大学航空航天学院工程力学专业获工学博士学位。2015年4月-2018年4月在北京大学工学院力学与工程科学系从事博士后研究工作。现担任中南大学力学系党委副书记。主要研究方向:轻质复合材料与结构设计、轻质承载多功能点阵结构设计、智能材料与结构设计、力学中的数值计算方法、结构动力学分析方法、桥梁面板与湿接缝结构设计等。相关研究成果已应用于航空航天、轨道交通、桥梁工程等领域。主持国家级项目3项,省部级项目3项,作为子课题负责人参与工信部民机专项重点项目1项,作为项目主研人员参与海军装备预研项目、国家自然科学基金重点项目等。获国家发明专利10余项,申请软件著作权3项,以第一作者或通讯作者在 JMPS, Acta. Mater等期刊上发表SCI论文40余篇,SCI他引1200余次,单篇引用超过100次,H-index 指数22,ESI高被引论文7篇。


  • 二、主要科研项目(主持)

1. 国防领域173计划技术领域基金,“XXXXXX的高效计算分析方法”,(2022-JCJQ-JJ-0179),2023-2024(80万元),主持,在研。

2. 湖南省教育厅优秀青年基金项目,“轻质多孔点阵材料的新型拓扑优化力学设计及其性能表征”,(22B0002), 2023-2024(6万元), 主持,在研。

3. 国家自然科学基金面上项目,"新型轻质曲面点阵材料微结构设计及其力学特性研究", (12072375), 2021-2024(62万元), 主持,在研。

4. 湖南省自然科学基金青年项目, "新型轻质平板点阵材料设计及其力学性能表征", (2021JJ40710), 2021-2023(5万元), 主持,在研。

5. 湖南铁院开放基金项目, "桥梁结构温度、应变智能采集系统开发", (HNTY2021K10), 2021-2023(20万元), 主持, 在研。

6. 工信部民机专项重点科研项目, "XXXXXX拓扑轻量化增材制造技术", (MJ-2016-G72), 2017-2020(123 万元),主持(子课题),已结题。

7. 国家自然科学基金青年基金项目, "面向多孔点阵材料与结构动力学特性分析的等几何流形元法研究", (11602004), 2017-2019(28 万元), , 已结题。

8. 国家重点实验室开放基金项目, "新型多层级点阵夹层结构优化设计与力学性能研究", (GZ15114), 2015-2017 (15万元),,已结题。


  • 三、已发表的期刊论文

(ORCID 个人资料:https://orcid.org/0000-0001-7906-678X

  • 2023年

63. W. Wen, M. Lei, P. Wang, T. Liu, S. Duan*, An efficient hybrid implicit time integration method with high accuracy for linear and nonlinear dynamics, European Journal of Mechanics - A/Solids 97 (2023) 104811. (SCI, Q1,IF: 4.873, 中科院2区)  


  • 2022年

54.  W. Wen, H. Li, T. Liu, S. Deng, S. Duan*, A novel hybrid sub-step explicit time integration method with cubic B-spline interpolation and momentum corrector technique for linear and nonlinear dynamics, Nonlinear Dynamics  (2022). (SCI, Q1,IF: 5.741, 中科院2区)

55.  W. Wen, M. Lei, Y. Tao*, Y. Lian, Out-of-plane crashworthiness of bio-inspired hierarchical diamond honeycombs with variable cell wall thickness, Thin-Walled Structures 176 (2022) 109347. (SCI, Q1,IF: 5.881,中科院2区)

56.  W. Wen, M. Lei, Y. Tao*, The effect of material distribution on the out-of-plane elastic properties of hierarchical diamond honeycombs, Engineering Structures 272 (2022) 115000. (SCI, Q1,IF: 5.582,中科院2区,Top期刊)

57.  W. Wen, S. Deng, T. Liu, S. Duan*, F. Huang, An improved quartic B-spline based explicit time integration algorithm for structural dynamics, European Journal of Mechanics - A/Solids 91 (2022) 104407. (SCI, Q1,IF: 4.873, 中科院2区)

58.  T. Liu, W. Wen*, An improved explicit time-marching procedure with b-spline interpolation and weighted residual technique for structural seismic response analysis, Engineering Structures 272 (2022) 115006. (SCI, Q1,IF: 5.582,中科院2区,Top期刊)

59.  W. Wen, T. Liu, S. Duan*, A novel sub-step explicit time integration method based on cubic B-spline interpolation for linear and nonlinear dynamics, Computers & Mathematics with Applications 127 (2022) 154-180. (SCI, Q1,IF: 3.218,中科院1区,Top期刊)

60.  黄方林, 孟宪冬, 冯帆, 高英杰, 温伟斌*, 预制桥面板方台形剪力键湿接缝受力性能分析, 铁道科学与工程学,  (2022) 1-13. (EI)

61.  温伟斌, 韩衍群, 侯文崎, 生产实习线上线下混合式教学模式改革与探索——以工程力学专业为例, 教育教学论坛, (22) (2022) 73-76.

62.  温伟斌, 韩衍群, 侯文崎, 课程思政融入生产实习的教学改革与探索——以工程力学专业为例, 科教文汇, (15) (2022) 84-87.


  • 2021年

43.  J. Zhang, L. Shi, T. Liu, D. Zhou*, W. Wen, Performance of a Three-Substep Time Integration Method on Structural Nonlinear Seismic Analysis, Mathematical Problems in Engineering 2021 (2021) 6442260. (SCI, Q2) 

44.  W.B. Wen, S.Y. Deng, T.H. Liu, S.Y. Duan, W.Q. Hou*, X.D. Xia**, An Improved Sub-Step Composite Time Integration Formulation With Enhanced Performance on Linear and Nonlinear Dynamics, International Journal of Applied Mechanics 13(02) (2021)2150017. (SCI, Q2,IF: 3.951,中科院3区)

45.  W. Wen, S. Deng, N. Wang, S. Duan*, D. Fang, An improved sub-step time-marching procedure for linear and nonlinear dynamics with high-order accuracy and high-efficient energy conservation, Applied Mathematical Modelling 90 (2021) 78-100. (SCI, Q1,IF: 5.336,中科院1区,Top期刊)

46.  W. Wen, S. Deng, S. Duan*, D. Fang, A high-order accurate explicit time integration method based on cubic b-spline interpolation and weighted residual technique for structural dynamics, International Journal for Numerical Methods in Engineering 122(2) (2021) 431-454. (SCI, Q1,IF: 3.021,中科院2区)

47.  T. Liu, F. Huang, W. Wen*, X. He*, S. Duan, D. Fang, Further insights of a composite implicit time integration scheme and its performance on linear seismic response analysis, Engineering Structures 241 (2021) 112490. (SCI, Q1,IF: 5.582,中科院2区,Top期刊)

48.  T. Liu, F. Huang, W. Wen*, S. Deng, S. Duan, D. Fang, An improved higher-order explicit time integration method with momentum corrector for linear and nonlinear dynamics, Applied Mathematical Modelling 98 (2021) 287-308. (SCI, Q1,IF: 5.336,中科院1区,Top期刊)

49.  F. Feng, F. Huang, D. Zhou*, W. Wen, Y. Tao, Study on the Shear Capacity of the Wet Joint of the Prefabricated Bridge Panel with a Special-Shaped Shear Key, Advances in Civil Engineering 2021 (2021) 5783563. (SCI, Q2)

50.  F. Feng, F. Huang*, W. Wen, P. Ge, Y. Tao**, Enhanced Ultimate Shear Capacity of Concave Square Frustum-Shaped Wet Joint in Precast Steel–Concrete Composite Bridges, Applied Sciences-Basel 11(4) (2021) 1915. (SCI, Q2)

51.  周德, 王宁波, 温伟斌, 仿真技术在“桥梁工程”课程设计的实践, 教育教学论坛, (47) (2021) 54-57.

52.  冯帆, 温伟斌, 伍彦斌, 曾文宋武, 黄方林*, 桥梁钢-混结合段试验模型加载多目标优化, 科学技术与工程, 21(19) (2021) 8212-8217. (核心)

53.  冯帆, 黄方林, 申成庆, 刘新辉, 温伟斌*, 异形剪力键桥面板湿接缝抗剪承载力试验研究, 桥梁建设, 51(01) (2021) 44-50. (EI)


  • 2020年

36.  葛鹏, 黄方林*, 温伟斌, 冯帆, 何彬, 钻孔灌注桩开挖对紧邻既有桥梁影响研究,  铁道科学与工程学报, 17(12) (2020) 3111-3117. (EI)

37.  X. Xia, G.J. Weng*, J. Xiao, W. Wen*, Porosity-dependent percolation threshold and frequency-dependent electrical properties for highly aligned graphene-polymer nanocomposite foams, Materials Today Communications 22 (2020) 100853. (SCI, Q1)

38.  L. Xi, W. Wen, W. Wu, Z. Qu, R. Tao, A. Karunaratne, B. Liao*, Y. Li**, D. Fang***, Mechanical response of cortical bone in compression and tension at the mineralized fibrillar level in steroid induced osteoporosis, Composites Part B: Engineering 196 (2020) 108138. (SCI, Q1)

39. S. Duan, L. Xi, W. Wen*, D. Fang**, Mechanical performance of topology-optimized 3D lattice materials manufactured via selective laser sintering, Composite Structures 238 (2020) 111985. (SCI, Q1,IF: 6.603,中科院1区,Top期刊)

40  S. Duan, L. Xi, W. Wen*, D. Fang**, A novel design method for 3D positive and negative Poisson's ratio material based on tension-twist coupling effects, Composite Structures 236 (2020) 111899. (SCI, Q1,IF: 6.603,中科院1区,Top期刊)

41  S. Duan, W. Wen*, D. Fang**, Additively-manufactured anisotropic and isotropic 3D plate-lattice materials for enhanced mechanical performance: Simulations & experiments, Acta Materialia 199 (2020) 397-412. (SCI, Q1,IF: 9.209,中科院1区,Top期刊)

42  X. Cao, D. Xiao, Y. Li*, W. Wen**, T. Zhao, Z. Chen, Y. Jiang, D. Fang, Dynamic compressive behavior of a modified additively manufactured rhombic dodecahedron 316L stainless steel lattice structure, Thin-Walled Structures 148 (2020) 106586. (SCI, Q1,IF: 5.881,中科院2区)


  • 2019年

33.  X. Xia, G.J. Weng, D. Hou, W. Wen*, Tailoring the frequency-dependent electrical conductivity and dielectric permittivity of CNT-polymer nanocomposites with nanosized particles, International Journal of Engineering Science 142 (2019) 1-19. (SCI, Q1,IF: 7.155,中科院1区,Top期刊)

34.  Y. Tao, W. Li*, K. Wei, S. Duan, W. Wen**, L. Chen, Y. Pei, D. Fang, Mechanical properties and energy absorption of 3D printed square hierarchical honeycombs under in-plane axial compression, Composites Part B: Engineering 176 (2019) 107219. (SCI, Q1,IF: 11.322,中科院1区,Top期刊)

35. Z. Dong, Y. Liu, W. Wen, J. Ge*, J. Liang**, Effect of Hatch Spacing on Melt Pool and As-built Quality During Selective Laser Melting of Stainless Steel: Modeling and Experimental Approaches, Materials 12(1) (2019) 50.  (SCI, Q1)


  • 2018年

26.  W. Wen, S. Luo, S. Duan*, J. Liang, D. Fang, Improved quadratic isogeometric element simulation of one-dimensional elastic wave propagation with central difference method, Applied Mathematics and Mechanics-English Edition 39(5) (2018) 703-716. (SCI, Q1,IF: 3.918,中科院1区,Top期刊)

27.  W. Wen, S. Duan*, K. Wei, Y. Ma, D. Fang, A quadratic b-spline based isogeometric analysis of transient wave propagation problems with implicit time integration method, Applied Mathematical Modelling 59 (2018) 115-131. (SCI, Q1,IF: 5.336,中科院1区,Top期刊)

28.  K. Wei, Y. Peng, K. Wang, S. Duan, X. Yang*, W. Wen**, Three dimensional lightweight lattice structures with large positive, zero and negative thermal expansion, Composite Structures 188 (2018) 287-296. (SCI, Q1,IF: 6.603,中科院1区,Top期刊)

29.  H. Li, Y. Chen, P. Wang, B. Xu*, Y. Ma, W. Wen, Y. Yang, D. Fang, Porous carbon-bonded carbon fiber composites impregnated with SiO2-Al2O3 aerogel with enhanced thermal insulation and mechanical properties, Ceramics International 44(3) (2018) 3484-3487. (SCI, Q1)

30.  S. Duan, W. Wen*, D. Fang**, A predictive micropolar continuum model for a novel three-dimensional chiral lattice with size effect and tension-twist coupling behavior, Journal of the Mechanics and Physics of Solids 121 (2018) 23-46. (SCI, Q1,IF: 5.582,中科院1区,Top期刊)

31. S. Duan, Y. Tao, H. Lei, W. Wen*, J. Liang*, D. Fang, Enhanced out-of-plane compressive strength and energy absorption of 3D printed square and hexagonal honeycombs with variable-thickness cell edges, Extreme Mechanics Letters 18 (2018) 9-18. (SCI, Q1,IF: 4.728,中科院2区)

32. X. Cao, S. Duan, J. Liang, W. Wen*, D. Fang**, Mechanical properties of an improved 3D-printed rhombic dodecahedron stainless steel lattice structure of variable cross section, International Journal of Mechanical Sciences 145 (2018) 53-63.  (SCI, Q1,IF: 6.772,中科院1区,Top期刊)


  • 2017年

13.  B. Xu*, R. He, C. Hong**, Y. Ma, W. Wen, H. Li, T. Cheng, D. Fang, Y. Yang, Ablation behavior and mechanism of double-layer ZrB2-based ceramic coating for lightweight carbon-bonded carbon fiber composites under oxyacetylene flame at elevate temperature, Journal of Alloys and Compounds 702 (2017) 551-560. (SCI, Q1)

14.  D. Xie, K. Jian*, W. Wen, An element-free Galerkin approach for rigid–flexible coupling dynamics in 2D state, Applied Mathematics and Computation 310 (2017) 149-168. (SCI, Q1)

15.  W.B. Wen, K. Wei, H.S. Lei*, S.Y. Duan, D.N. Fang, A novel sub-step composite implicit time integration scheme for structural dynamics, Computers & Structures 182 (2017) 176-186. (SCI, Q1,IF: 5.372,中科院2区)

16.  W.B. Wen*, S.Y. Duan, J. Yan, Y.B. Ma, K. Wei, D.N. Fang, A quartic B-spline based explicit time integration scheme for structural dynamics with controllable numerical dissipation, Computational Mechanics 59(3) (2017) 403-418. (SCI, Q1,IF: 4.391,中科院2区)

17. W.B. Wen, S.Y. Duan*, Y. Tao**, J. Liang, D. Fang, An Explicit Time Integration Scheme Based on B-Spline Interpolation and Its Application in Wave Propagation Analysis, International Journal of Applied Mechanics 09(08) (2017) 1750115. (SCI, Q2,IF: 3.951,中科院3区)

18. W. Wen, Y. Tao*, S. Duan**, J. Yan, K. Wei, D. Fang, A comparative study of three composite implicit schemes on structural dynamic and wave propagation analysis, Computers & Structures 190 (2017) 126-149. (SCI, Q1,IF: 5.372,中科院2区)

19. W. Wen, H. Lei, K. Wei*, B. Xu, S. Duan, D. Fang, An improved time integration scheme based on uniform cubic B-splines and its application in structural dynamics, Applied Mathematics and Mechanics-English Edition 38(6) (2017) 889-908. (SCI, Q1,IF: 3.918,中科院1区,Top期刊)

20. K. Wei, Y. Peng, W. Wen, Y. Pei*, D. Fang**, Tailorable Thermal Expansion of Lightweight and Robust Dual-Constituent Triangular Lattice Material, Journal of Applied Mechanics 84(10) (2017). (SCI, Q2)

21. C. Wang, M. Chen*, H. Lei**, K. Yao, H. Li, W. Wen, D. Fang, Radar stealth and mechanical properties of a broadband radar absorbing structure, Composites Part B: Engineering 123 (2017) 19-27. (SCI, Q1)

22. Y. Tao, S. Duan, W. Wen*, Y. Pei, D. Fang**, Enhanced out-of-plane crushing strength and energy absorption of in-plane graded honeycombs, Composites Part B: Engineering 118 (2017) 33-40. (SCI, Q1,IF: 11.322,中科院1区,Top期刊)

23. Y. Ma, B. Xu*, M. Chen, R. He, W. Wen, T. Cheng, D. Fang, Optimization design of built-up thermal protection system based on validation of corrugated core homogenization, Applied Thermal Engineering 115 (2017) 491-500. (SCI, Q1)

24. Y. Ma, H. Li*, H. Chen, W. Wen, T. Cheng, M. Chen, D. Fang, Dispersion and damping analysis of orthotropic composite plate in mid frequency based on symplectic method, Composite Structures 178 (2017) 426-433. (SCI, Q1)

25. H. Li, Y. Ma, W. Wen, W. Wu*, H. Lei**, D. Fang, In Plane Mechanical Properties of Tetrachiral and Antitetrachiral Hybrid Metastructures, Journal of Applied Mechanics 84(8) (2017). (SCI, Q2)


  • 2016年以前

1.   D. Xie, K. Jian*, W. Wen, Global interpolating meshless shape function based on generalized moving least-square for structural dynamic analysis, Applied Mathematics and Mechanics-English Edition 37(9) (2016) 1153-1176. (SCI, Q1)

2.   W.-B. Wen, K. Yao*, H.-S. Lei, S.-Y. Duan, D.-N. Fang, A High-Order Numerical Manifold Method Based on B-Spline Interpolation and its Application in Structural Dynamics, International Journal of Applied Mechanics 08(08) (2016) 1650093. (SCI, Q2)

3.  C. Wang, W. Wen*, Y. Huang, M. Chen**, H. Lei, D. Fang, A novel broadband waterborne acoustic absorber, AIP Advance 6(7) (2016) 075107.  (SCI, Q2)

4.  H. Lei*, K. Yao*, W. Wen, H. Zhou, D. Fang, Experimental and numerical investigation on the crushing behavior of sandwich composite under edgewise compression loading, Composites Part B: Engineering 94 (2016) 34-44. (SCI, Q1)

5.  T. Cheng, W. Li*, Z. Qu, W. Wen, D. Fang, Thermal Shock Resistance of Chemical Vapour Deposited Zinc Sulfide at Elevated Temperatures, Transactions of the Indian Ceramic Society 75(4) (2016) 215-219. (SCI, Q1)

6.   W.B. Wen*, S.M. Luo, K.L. Jian, A novel time integration method for structural dynamics utilizing uniform quintic B-spline functions, Archive of Applied Mechanics 85(12) (2015) 1743-1759. (SCI, Q2)

7.   蹇开林, 温伟斌*, 骆少明, 基于均匀七次B样条插值求解动力响应的逐步积分法, 振动与冲击, 33(16) (2014) 171-176. (EI)

8.   W.-B. Wen*, K.-L. Jian, S.-M. Luo, An explicit time integration method for structural dynamics using septuple B-spline functions, International Journal for Numerical Methods in Engineering  97(9)  (2014) 629-657. (SCI, Q1)

9.   D. Jun*, C. Song, W. Wei-Bin, L. Shao-Ming, H. Xia, Numerical Manifold Method for the Forced Vibration of Thin Plates during Bending, The Scientific World Journal 2014 (2014) 520958. (SCI, Q4)

10.  W.-b. Wen, K.-l. Jian*, S.-m. Luo, 2D numerical manifold method based on quartic uniform B-spline interpolation and its application in thin plate bending, Applied Mathematics and Mechanics -English Edition 34(8) (2013) 1017-1030. (SCI, Q1)

11.  温伟斌*, 骆少明, 薄板弯曲分析的多边形流形单元, 工程力学, 29(10) (2012) 249-256. (EI)

12.  骆少明*, 温伟斌, 成思源, 章争荣, 基于三角网格多节点覆盖的数值流形方法, 塑性工程学报, 17(06) (2010) 131-135. (中文核心)


  • 四、已授权发明专利与软著

 1.  温伟斌等. 一种肋板骨架混凝土现浇板板, 2020-9-21, 中国, ZL2 02010992020.7 (发明专利)

 2.  温伟斌等. 剪力键模具的制作方法及桥面板铺装结构, 2020-6-10, 中国, CN202010524078.9 (发明专利)

 3.  温伟斌等. 一种工程结构振动响应的时域分析方法和系统, 2020-10-29, 中国, CN202011183837.6 (发明专利)

 4.  温伟斌等. 一种具有点阵结构的零件、点阵结构及点阵胞元, 2019-12-23, 中国, ZL201911342709.9 (发明专利)

 5.  温伟斌等.  一种工程结构在极端荷载下动态响应的复合时域分析方法, 2021-09-14, 中国, 

     CN202111072634.4 (发明专利)

 6.  冯帆, 黄方林, 温伟斌, 曾文宋武, 刘丽萍, 刘添豪. 一种预制钢筋混凝土组合桥面板及湿接缝结构, 2019-7-24, ZL201910673428.5 (发明专利)

 7.  伟斌; 段晟昱; 梁军 ; 三维点阵填充结构轻量化系统V1.0, 2020SR1211657, 原始取得, 全部权利, 2019-10-15 (软件著作权)

 8.  段晟昱; 温伟斌 ; 三维点阵结构非线性力学分析软件V1.0, 2021SR0177812, 原始取得, 全部权利, 2019-10-15 (软件著作权)

 9.  温伟斌, 雷鸣, 新型蜂窝结构抗冲击分析参数化建模程序软件V1.0, 2021SR1295985, 原始取得, 全部权利, 2021-7-01 (软件著作权)


  • 五、部分学术兼职

 1.  教育部学位与研究生教育发展中心学位论文评审专家,国家自然科学基金评审专家。

 2.  中国复合材料学会轨道交通专业委员会委员,复合材料学会青年工作委员会委员,湖南省力学学会理事。

 3.  学术期刊审稿人: 《Journal of the Mechanics and Physics of Solids》、《Computer Methods in Applied Mechanics and Engineering》、《Nonlinear Dynamics》、《Composite Structures》、《International Journal of Mechanical Sciences》、《Materials & Designs》、《Thin-Walled Structures》、《International Journal of Applied Mechanics》、《Proceedings of the Royal Society A》、《Finite Elements in Analysis and Design》、《Computers & Structures》、《Applied Mathematical Modelling》、《Computers & Mathematics with Applications》、《Engineering Structures》等。


  • 六、招生需求

  1.  本课题组经费充足,欢迎具有力学、数学、机械、土木、物理、材料、计算机及相关学科交叉背景的同学报考本课题组的研究生!

  2.  欢迎相关专业博士毕业生加入课题组从事博士后研究工作!