联系方式

通讯地址：福建省福州市福州地区大学新区学园路2号 邮编:350116

电子邮箱：keithiscxc@fzu.edu.cn

电 话：

传 真：

教育工作经历

2014/09-2019/09，西南交通大学，力学与工程学院，博士

2011/09-2014/06，南昌航空大学，飞行器工程学院，硕士

2007/09-2011/06，哈尔滨工程大学，船舶工程学院，本科

2019/11-2023/9，福州大学，机械工程及自动化学院机械设计系，讲师

2023/9-至今，福州大学，机械工程及自动化学院机械设计系，副教授

社会兼职

1)福建省图学学会会员

2)国际期刊（CompositepartB, Aerospace Science and Technology等）审稿人

研究领域（研究课题）

1）复合材料结构力学性能分析与优化；

2）板壳非线性力学；

3）动力系统的分岔与混沌；

4）细长结构非线性振动及其控制

5）多场耦合与智能结构动力学

主要科研项目（近五年）

1）国家自然科学基金：多向功能梯度细长微结构后屈曲复杂动力学特性研究（No.12002088），2021.01- 2023.12，结题，主持

2）福建省自然科学基金：多向功能梯度自旋柱壳热力耦合复杂动力学特性(No. 2020J05103) 2020.8-2023.8，结题，主持

3）福州大学科研启动项目：XXXX力学行为，（No.GXRC-20017），2020-2021，在研，主持；

4）福建省教育厅项目，梯度金属橡胶材料夹芯板动力学行为研究（No.JAT190008），2019.12-2021.12，在研，主持

5）国家自然科学基金，轴向运动自旋复合材料双曲型薄壁回转细长结构振动特性及稳定性研究（No.11872319），2019-01至2022-12，结题，参加

6）国家自然科学基金，复杂环境下旋转细长复合材料结构振动特性及稳定性（No.11372257），2014.1-2017.12，结题，参加

代表性论著[1-30]

[1.]Xin Xue, R.W., Fang Wu, Yunlingzi Xiong, Guojian Shen, andXiaochao Chen(通讯), Vibrational Power Flow Analysis for the Sandwich Cylindrical Shell Structure with a Metal–Rubber Core in the Thermal Environment.International Journal of Structural Stability and Dynamics, 2023.Publishing.

[2.]Chen, X., Y. Lu, Z. Wu, Y. Shao, X. Xue, and Y. Wu, Free vibration of in-plane bi-directional functionally graded materials rectangular plates with geometric imperfections and general elastic restraints.Aerospace Science and Technology, 2023.132:108045.

[3.]Zhang, R., H. Bai, andX. Chen(通讯), The Consistent Couple Stress Theory-Based Vibration and Post-Buckling Analysis of Bi-directional Functionally Graded Microbeam.Symmetry, 2022.14(3):602.

[4.]Wu, Y.-W., Y. Tang, S.-Z. Li, H. Cheng, X.-C. Chen(通讯), and H.-B. Bai, Experimental study on the mechanical properties and impact behaviors of entangled metallic wire material under repeated low-velocity impacts.Mechanics of Advanced Materials and Structures, 2022:1-11.

[5.]Wu, Y., Y. Tang, Z. Qin, X. Chen(通讯), and H. Bai, Experimental and Numerical Research on a Pipe Element Passing through Bulkhead with Symmetrical Elastic Installation.Symmetry, 2022.14(3):453.

[6.]Li, X., W.T. Jiang, and X.C. Chen(通讯), Parametric Instability of Rotating Functionally Graded Graphene Reinforced Truncated Conical Shells Subjected to Both Mechanical and Thermal Loading Conditions.International Journal of Structural Stability and Dynamics, 2022.22(06).

[7.]Li, X., X.C. Chen(通讯), and W.T. Jiang, Dynamic stability of graded graphene reinforced truncated conical shells under both periodic spinning speeds and axial loads considering thermal effects.Engineering Structures, 2022.256:113963.

[8.]Li, M.,X.C. Chen, X.P. Chang, Y. Qin, and Y.H. Li, General analytical solution for vibrations of pipes with arbitrary discontinuities and generalized boundary condition on Pasternak foundation.Mechanical Systems and Signal Processing, 2022.162.

[9.]Chen, X., S. Huang, B. Zhu, R. Wu, and Z. Ren, A domain decomposition method based vibration analysis of BDFGs imperfect beams with arbitrary boundary conditions.Composite Structures, 2022.284:115115.

[10.]任志英,方荣政,陈小超(通讯),沈亮量,白鸿柏, and林有希,基于虚拟制备的金属橡胶各向异性本构特性研究.机械工程学报, 2022.57(24):211-222.

[11.]Zhu, B., X.C. Chen, Y. Guo, and Y.H. Li, Static and dynamic characteristics of the post-buckling of fluid-conveying porous functionally graded pipes with geometric imperfections.International Journal of Mechanical Sciences, 2021.189.

[12.]Zhang, X.L., X.C. Chen, M. Li, Y.H. Li, and J. Xu, Thermal post-buckling analyses of magneto-electro-elastic laminated beams via generalized differential quadrature method.Aerospace Science and Technology, 2021.119:2-6.

[13.]Wu, J.Q., L.T. Chen, R.X. Wu, and X.C. Chen(通讯), Nonlinear Forced Vibration of Bidirectional Functionally Graded Porous Material Beam.Shock and Vibration, 2021.2021.

[14.]Li, X., W.T. Jiang, X.C. Chen, and Z.H. Zhou, Nonlinear forced vibration of rotating composite laminated cylindrical shells under hygrothermal environment.Zeitschrift Fur Naturforschung Section a-a Journal of Physical Sciences, 2021.76(9):769-786.

[15.]Chen, X.C., L.T. Chen, and Y.X. Lu, Imperfection sensitivity of nonlinear primary resonance behavior in bi-directional functionally graded porous material beam.Composite Structures, 2021.271.

[16.]Chen, X., L. Chen, S. Huang, M. Li, and X. Li, Nonlinear forced vibration of in-plane bi-directional functionally graded materials rectangular plate with global and localized geometrical imperfections.Applied Mathematical Modelling, 2021.93(C):443-466.

[17.]Xue, X., S.X. Ruan, H.B. Bai, X.C. Chen, Y.C. Shao, and C.H. Lu, An enhanced constitutive model for the nonlinear mechanical behavior of the elastic-porous metal rubber.Mechanics of Materials, 2020.148.

[18.]Lu, Y.X. and X.C. Chen(通讯), Nonlinear Parametric Dynamics of Bidirectional Functionally Graded Beams.Shock and Vibration, 2020.2020.

[19.]Li, M., Q. Xu, X.C. Chen, X.L. Zhang, and Y.H. Li, Modeling and modal analysis of non-uniform multi-span oil-conveying pipes with elastic foundations and attachments.Applied Mathematical Modelling, 2020.88:661-675.

[20.]Zhu, B., X. Chen, Y. Dong, and Y. Li, Stability analysis of cantilever carbon nanotubes subjected to partially distributed tangential force and viscoelastic foundation.Applied Mathematical Modelling, 2019.73(SEP.):190-209.

[21.]Zhang, X.L., X.C. Chen, E. Yang, H.F. Li, J.B. Liu, and Y.H. Li, Closed-form solutions for vibrations of a magneto-electro-elastic beam with variable cross section by means of Green's functions.Journal of intelligent material systems and structures, 2019.30(1):82-99.

[22.]XC, C., Z. XL, L. YX, and L. YH, Static and dynamic analysis of the postbuckling of bi-directional functionally graded material microbeams.International Journal of Mechanical Sciences, 2019.151:424-443.

[23.]Li, H., F. Pang, Y. Ren, X. Miao, and K. Ye, Free vibration characteristics of functionally graded porous spherical shell with general boundary conditions by using first-order shear deformation theory.Thin-Walled Structures, 2019.144:106331.

[24.]Chen, X., Y. Lu, B. Zhu, X. Zhang, and Y. Li, Nonlinear resonant behaviors of bi-directional functionally graded material microbeams: One-/two-parameter bifurcation analyses.Composite Structures, 2019.223:110896.

[25.]Chen, X., Y. Lu, and Y. Li, Free vibration, buckling and dynamic stability of bi-directional FG microbeam with a variable length scale parameter embedded in elastic medium.Applied Mathematical Modelling, 2019.67(MAR.):430-448.

[26.]Chen, X. and Y. Li, Size-dependent post-buckling behaviors of geometrically imperfect microbeams.Mechanics Research Communications, 2018.88:25-33.

[27.]陈小超,毛崎波, and薛晓理,基于广义函数空间的不连续梁振动分析.应用数学和力学, 2014.35(1):11.

[28.]陈小超,毛崎波, and薛晓理,轴向力作用不连续梁自由振动的广义函数解.固体力学学报, 2014.35(3):6.

[29.]陈小超and毛崎波,应用移动质量法与分形维数实现梁损伤检测.噪声与振动控制, 2014.34(3):5.

[30.]Mao, Q. and X. Chen, Application of adomian decomposition method to free vibration analysis of multi-cracked beams.2013.