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柴应彬

发布日期:2020-05-06

 

姓 名

柴应彬

出生年月

1987年10月

性 别

职  称

教授

邮 箱

chaiyb@whut.edu.cn

/博导

硕导

联系电话

18040599095

研究领域

计算海洋声学;结构振动与声辐射;结构主/被动隔振;水下结构主/被动声隐身技术。

教育经历

2007/09-2011/06,华中科技大学,船舶与海洋工程,学士

2011/09-2014/03,华中科技大学,船舶与海洋结构物设计制造,硕士

2014/09-2017/09,华中科技大学,船舶与海洋工程,博士

工作经历

2017/09-2020/03,华中科技大学,机械科学与工程学院,博士后

2018/12-2019/12,麻省理工学院,机械工程系,博士后

2020/05-至今,武汉理工大学,船海能动学院,教授

科研项目

1.基于自适应无网格算法的水下弹性体声散射特性研究,中国博士后科学基金委,面上项目,主持,已结题。

2.水下复杂弹性体声散射场计算方法及其三维形状反演研究,国家自然科学基金委,面上项目,主要参与人,已结题。

3.带内部结构的水下加筋锥-柱-球组合壳声振耦合特性机理研究,国家自然科学基金委,面上项目,主要参与人,已结题。

4.水下复合材料结构声散射特性的光滑有限元算法研究,武汉理工大学自主创新研究基金项目,主持,在研。

5.基于光滑有限元的水下复杂弹性结构中低频声散射特性研究,上海交通大学海洋工程国家重点实验室开放基金项目,主持,在研。

6.水下夹芯多层复合材料结构声-弹耦合计算模型及声散射特性研究,湖北省自然科学基金委,青年项目,主持,在研。

代表性论文

及著作

[1] Xiangyu You, Wei Li, Yingbin Chai*. A truly meshfree method for solving acoustic problems using local weak form and radial basis functions. Applied Mathematics and Computation, 2020,365: 124694. (ESI 高被引论文, SCI/EI 收录,影响因子4.091, JCR分区Q1区,通讯作者)

[2]Yingbin Chai, Wei Li, Zuyuan Liu. Analysis of transient wave propagation dynamics using the enriched finite element method with interpolation cover functions. Applied Mathematics and Computation, 2022, 412: 126564. (SCI/EI 收录,影响因子4.091, JCR分区Q1区,第一作者)

[3] Liming Zhou, Jiye Wang, Mingrui Liu, Ming Li*, Yingbin Chai*. Evaluation of the transient performance of magneto-electro-elastic based structures with the enriched finite element method. 2022, Composite Structures (Accepted). (SCI/EI 收录,影响因子5.407, JCR分区Q1区,通讯作者)

[4] Qiang Gui, You Zhou, Wei Li, Yingbin Chai*. Analysis of two-dimensional acoustic radiation problems using the finite element with cover functions. Applied Acoustics, 2022, 185: 108408. (SCI/EI 收录,影响因子2.639, JCR分区Q2区,通讯作者)

[5] Fei Wu, Guo Zhou, Qiyuan Gu, Yingbin Chai*. An enriched finite element method with interpolation cover functions for acoustic analysis in high frequencies. Engineering Analysis with Boundary Elements, 2021, 129: 67–81. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,通讯作者)

[6] Wei Li, Qifan Zhang, Qiang Gui, Yingbin Chai*. A Coupled FE-Meshfree Triangular Element for Acoustic Radiation Problems. International Journal of Computational Methods, 2021, 18(3): 2041002. (SCI/EI 收录,影响因子2.139, JCR分区Q2区,通讯作者)

[7]Yingbin Chai, Zhixiong, Wei Li, Yongou Zhang*, Analysis of transient wave propagation in inhomogeneous media using edge-based gradient smoothing technique and bathe time integration method, Engineering Analysis with Boundary Elements, 2020, 120: 211–222. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,第一作者)

[8]Yingbin Chai, Klaus-Jürgen Bathe*. Transient wave propagation in inhomogeneous media with enriched overlapping triangular elements. Computers and Structures, 2020, 237: 106273. (SCI/EI 收录,影响因子4.578, JCR分区Q1区,第一作者)

[9]Yingbin Chai, Xiangyu You, Wei Li*. Dispersion Reduction for the Wave Propagation Problems Using a Coupled "FE-Meshfree" Triangular Element. International Journal of Computational Methods, 2020, 17(9): 1950071. (SCI/EI 收录,影响因子2.139, JCR分区Q2区,第一作者)

[10]Yingbin Chai, Yongou Zhang*. Transient Wave Propagation Dynamics with Edge-Based Smoothed Finite Element Method and Bathe Time Integration Technique. Mathematical Problems in Engineering, 2020, 2020: 7180489. (SCI/EI 收录,影响因子1.305, JCR分区Q3区,第一作者)

[11]Yingbin Chai, Wei Li, Yongou Zhang*. A Novel Triangular Element with Continuous Nodal Acoustic Pressure Gradient for Acoustic Scattering Problems. Mathematical Problems in Engineering, 2019, 2019: 7436472. (SCI/EI 收录,影响因子1.305, JCR分区Q3区,第一作者)

[12]Yingbin Chai, Xiangyu You, Wei Li*, Yu Huang, Zhijun Yue, Mingsheng Wang. Application of the edge-based gradient smoothing technique to acoustic radiation and acoustic scattering from rigid and elastic structures in two dimensions. Computers and Structures, 2018, 203: 43–58. (SCI/EI收录,影响因子4.578, JCR分区Q1区,第一作者)

[13]Yingbin Chai, Zhixiong Gong, Wei Li*, Tianyun Li, Qifan Zhang, Zhihong Zou. Application of Smoothed Finite Element Method to Two-Dimensional Exterior Problems of Acoustic Radiation. International Journal of Computational Methods, 2018, 15(1): 1850029-1-35. (SCI/EI 收录,影响因子2.139, JCR分区Q2区,第一作者)

[14] Xiangyu You, Wei Li, Yingbin Chai*. Dispersion analysis for acoustic problems using the point interpolation method. Engineering Analysis with Boundary Elements, 2018, 94: 79–93. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,通讯作者)

[15] Wei Li, Yingbin Chai*, Ming Lei, Tianyun Li, Numerical investigation of the edge-based gradient smoothing technique for exterior Helmholtz equation in two dimensions, Computers & Structures, 2017, 182: 149–164. (SCI/EI 收录,影响因子4.578, JCR分区Q1区,通讯作者)

[16]Yingbin Chai, Wei Li*, Guirong Liu, Zhixiong Gong, Tianyun Li, A superconvergent alpha finite element method (SαFEM) for static and free vibration analysis of shell structures, Computers & Structures, 2017, 179: 27–47. (SCI/EI 收录,影响因子4.578, JCR分区Q1区,第一作者)

[17] Wei Li, Zhixiong Gong, Yingbin Chai*, Cong Cheng, Tianyun Li, Qifan Zhang, Mingsheng Wang, Hybrid gradient smoothing technique with discrete shear gap method for shell structures, Computers & Mathematics with Applications, 2017, 74(8): 1826–1855. (SCI/EI 收录,影响因子3.476, JCR分区Q1区,通讯作者)

[18]Yingbin Chai, Zhixiong Gong, Wei Li*, Tianyun Li, Qifan Zhang, A smoothed finite element method for exterior Helmholtz equation in two dimensions, Engineering Analysis with Boundary Elements, 2017, 86: 237–252. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,第一作者)

[19]Yingbin Chai, Wei Li*, Zhixiong Gong, Tianyun Li, Hybrid smoothed finite element method for two-dimensional underwater acoustic scattering problems, Ocean Engineering, 2016, 116: 129–141. (SCI/EI 收录,影响因子3.795, JCR分区Q1区,第一作者)

[20]Yingbin Chai, Wei Li*, Tianyun Li, Zhixiong Gong, Xiangyu You, Analysis of underwater acoustic scattering problems using stable node-based smoothed finite element method, Engineering Analysis with Boundary Elements, 2016, 72: 27–41. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,第一作者)

[21]Yingbin Chai, Wei Li*, Zhixiong Gong, Tianyun Li, Hybrid smoothed finite element method for two dimensional acoustic radiation problems, Applied Acoustics, 2016, 103: 90–101. (SCI/EI 收录,影响因子2.639, JCR分区Q2区,第一作者)

[22] Wei Li, Xiangyu You, Yingbin Chai*, Tianyun Li, Edge-based smoothed three-node Mindlin plate element, Journal of Engineering Mechanics, 2016, 142(9): 04016055. (SCI/EI 收录,影响因子2.620, JCR分区Q2区,通讯作者)

[23] Wei Li, Yingbin Chai*`, Ming Lei, Guirong Liu, Analysis of coupled structural-acoustic problems based on the smoothed finite element method (S-FEM), Engineering Analysis with Boundary Elements, 2014, 42: 84–91. (SCI/EI 收录,影响因子2.964, JCR分区Q2区,通讯作者)

[24] Wei Li, Yingbin Chai, Zhixiong Gong*, Yao Zhao, PL Marston. Analysis of forward scattering of an acoustical Bessel beam from rigid complicated (nonspherical) structures. Journal of Quantitative Spectroscopy and Radiative Transfer. 2017, 200: 146-162.

[25] Xiangyu You, Yingbin Chai,Wei Li*. A coupled FE-meshfree method for Helmholtz problems using point interpolation shape functions and edge-based gradient smoothing technique. Computers & Structures, 2019, 213, 1-22.

[26] Wei Li, Yingbin Chai, Xiangyu You, Qifan Zhang*. An Edge-Based Smoothed Finite Element Method for Analyzing Stiffened Plates. International Journal of Computational Methods, 2019,1840031.

[27] Zhixiong Gong, Wei Li*, Yingbin Chai, Yao Zhao, Farid G. Mitri. T-matrix method for acoustical Bessel beam scattering from a rigid finite cylinder with spheroidal endcaps. Ocean Engineering, 2017, 129: 507-519.

[28] Zhixiong Gong, Philip L. Marston, Wei Li*, Yingbin Chai. Multipole expansion of acoustical Bessel beams with arbitrary order and location. The Journal of the acoustical of America , 2017, 141(6): EL574-EL578.

[29] Zhixiong Gong, Wei Li*, Farid G. Mitri, Yingbin Chai, Yao Zhao. Arbitrary scattering of an acoustical Bessel beam by a rigid spheroid with large aspect-ratio. Journal of Sound and Vibration, 2016, 383: 233-247.

[30] Zhixiong Gong, Yingbin Chai, Wei Li*. Coupled Analysis of Structural-Acoustic Problems Using the Cell-Based Smoothed Three-Node Mindlin Plate Element . International Journal of Computational Methods , 2016, 13(2): 1640007.

[31] Zhiwei Song, Zhigang Chen, Wei Li*, Yingbin Chai. Parametric instability analysis of a rotating shaft subjected to a periodic axial force by using discrete singular convolution method. Meccanica, 2016 , 52(4-5): 1159-1173.

[32] Zhiwei Song, Zhigang Chen, Wei Li*, Yingbin Chai. Dynamic stability analysis of beams with shear deformation and rotary inertia subjected to periodic axial forces by using discrete singular convolution method. Journal of Engineering Mechanics, 2015, 142: 04015099.

[33] Wei Li*, Zhiwei Song, Yingbin Chai. Discrete singular convolution method for dynamic stability analysis of beams under periodic axial forces. Journal of Engineering Mechanics, 2015,141: 04015033.

[34] Xiangyu You, Yingbin Chai, Wei Li *. Edged-based smoothed point interpolation method for acoustic radiation with perfectly matched layer, Computers & Mathematics with Applications, 2020, 80(6): 1596-1618.

[35]Yingbin Chai, Xiangyu You, Wei Li*. Dispersion Reduction for the Wave Propagation Problems Using A Coupled FE-Meshfree Triangular Element. International Journal of Computational Methods, 2020,1950071.

[36] Wei Li, Yingbin Chai, Qifan Zhang, Renchao Ji. Vibration and Radiation from Underwater Structure in Shallow Water. OCEANS 2016-Shanghai, 2016, 1-5.

[37] Wei Li, Qifan Zhang, Yingbin Chai, Tianyun Li, Zhixiong Gong. An edge-based smoothed finite element method for two-dimensional underwater acoustic scattering problems. OCEANS 2016-Shanghai, 2016, 1-6.

[38] Chunxu Wang, Wei Li, Cong Cheng, Xiangyu You, Yingbin Chai. A superconvergent alpha finite element method (SαFEM) for acoustic problems. 2018 IEEE 8th International Conference on Underwater System Technology, 2018, 1-5.

[39] Shuigen Liu, Zhixiong Gong, Yingbin Chai, Wei Li. Underwater Acoustic Scattering of Bessel Beam by Spherical Shell Using T-matrix Method. IEEE/OES China Ocean Acoustics Symposium,Harbin. China, 2016.

[40] Wei Li, Qifan Zhang, Yingbin Chai. Sound radiation of plate with two opposite sides clamped and other two free using the edgebased smoothed finite element method. The 21st International Congress on Sound and Vibration,13-17th July, 2014, Beijing/China, 2014.

[41]尤小健,李威,柴应彬.基于面光滑有限元法的三维声传播问题研究.舰船科学技术,2015,37(12):104-109.

[42]晋文超,岳智君,李威,李耀飞,柴应彬.基于 α有限元法的二维水下声散射计算.海洋工程, 2017,35(5):141-148.

[43]魏克难,李威,雷明,柴应彬.基于耦合边界元法的水下目标低频声散射特性.舰船科学技术,2014,36(10):32-36.

[44]游翔宇,郑文成,李威,柴应彬,程聪.基于边光滑有限元法的加筋板静力和自由振动分析,计算力学学报,2018,35(1):28-34.

[45]李威,李诤,柴应彬,韩旭.基于边光滑有限元法的结构振动与稳定性研究.噪声与振动控制,2014,34(2):1-4.

[46]雷明,李威,柴应彬,魏克难.基于边光滑有限元法的散射声场数值计算.船海工程, 2014,43(3):55-58.

所获奖励

1. 2019年6月, 论文《声学混合光滑有限元模型及在水下声散射中的应用》获中国造船工程学会全国船舶与海洋工程学科优秀博士学位论文

2. 2020年4月,论文《A smoothed finite element method for exterior Helmholtz equation in two dimensions》被Elsevier出版集团评为2020年高被引论文。

3. 2021年5月,论文《A truly meshfree method for solving acoustic problems using local weak form and radial basis functions》被科睿唯安(Clarivate)基本指标数据库数据库(Essential Science Indicators,ESI)评为ESI高被引论文。

国际交流

与合作

与麻省理工学院Klaus-Jürgen Bathe教授有长期合作关系。

招生专业

每年招收硕士研究生2-3名,招收专业为船舶与海洋工程,机械工程,土木工程,结构工程,工程力学等有力学或者声学背景的相关专业。

毕业生

主要去向

各大船舶设计研究所和船级社等。



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