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秦斌
个人简介
秦斌 博士,讲师
办公室地点:中南大学交通运输工程学院高速列车研究中心
E-mail: qinbin@csu.edu.cn


教育经历
2008/09-2012/07 哈尔滨工业大学 本科 导师:常军涛

2012/09-2014/07 哈尔滨工业大学 硕士 导师:常军涛

2014/09-2018/09 哈尔滨工业大学 博士 导师:Alam Md. Mahbub

工作经历
2019/02-至今 中南大学 讲师 方向:高速列车研究中心噪声组
科研方向
(1)轨道交通噪声与振动(结构振动与噪声、空气动力学噪声、流固耦合、流致振动)

(2)轨道交通故障智能预测与健康管理(PHM)


【科研项目】

(1)青年科学基金(主持,26w)

(2)中南大学科研启动经费(主持,25w)

(3)北京机场线地铁噪声计算(第一执行人,已完成)

(4)长客磁浮列车噪声计算(第一执行人,进行中)

(5)另参与多项横向课题

学术成果
Selected publications(First or corresponding author#)

[1] Qin, B., Chang, J.#, Jiao, X., Bao, W., and Yu, D. (2014). Numerical investigation of the impact of asymmetric fuel injection on shock train characteristics. Acta Astronautica, 105(1), 66-74.(JCR Q1)

[2] Qin, B., Chang, J.#, Jiao, X., and Bao, W. (2015). Unstart Margin Characterization Method of Scramjet Considering Isolator–Combustor Interactions. AIAA Journal, 53(2), 493-500.(JCR Q1)

[3] Qin, B., Alam, M.M.#, and Zhou, Y., (2017). Two tandem cylinders of different diameters in crossflow: flow-induced vibration. Journal of Fluid Mechanics. 829, 621-658.(JCR Q1,流体力学领域TOP1)

[4] Qin, B., Alam, M.M.#, Ji, C.N., Liu, Y., and Xu, S.J, (2018). Flow induced vibration of two tandem cylinders of different natural frequencies. Ocean Engineering. 155, 189-200.(JCR Q1)

[5] Qin, B., Alam, M. M.#, & Zhou, Y. (2019). Free vibrations of two tandem elastically mounted cylinders in crossflow. Journal of Fluid Mechanics, 861, 349-381.(JCR Q1,流体力学领域TOP1)

[6] Qin, B., Choe, K., Wu, Q., Wang, T., & Wang, Q.#(2019). A unified modeling method for free vibration of open and closed functionally graded cylindrical shell and solid structures. Composite Structures, 223, 110941.(JCR Q1)

[7] Qin, B., Choe, K., Wang, T., & Wang, Q.#(2019). A unified Jacobi-Ritz formulation for vibration analysis of the stepped coupled structures of doubly-curved shell. Composite Structures, 220, 717-735.(JCR Q1)

[8] Qin, B., Zhong, R., Wu, Q., Wang, T., & Wang, Q.#(2019). A unified formulation for free vibration of laminated plate through Jacobi-Ritz method. Thin-Walled Structures, 144, 106354.(JCR Q1)

[9] Qin, B., Zhong, R., Wang, T., Wang, Q., Xu Y. & Hu, Z.#(2020) A unified Fourier series solution for vibration analysis of FG-CNTRC cylindrical, conical shells and annular plates with arbitrary boundary conditions. Composite Structures, 111549. (JCR Q1, ESI 高被引论文)

[10] Liu, T., Wang, A., Wang, Q., & Qin, B.#(2020). Wave based method for free vibration characteristics of functionally graded cylindrical shells with arbitrary boundary conditions. Thin-Walled Structures, 148, 106580. (JCR Q1)

[11] Wang, Q., Zhong, R., Qin, B.#, & Yu, H.#(2020). Dynamic analysis of stepped functionally graded piezoelectric plate with general boundary conditions. Smart Materials and Structures. 29(3) (JCR Q1)

[12] Qin, B., Zhao X.#, Liu, H.H., Yu Y.G. & Wang Q.S. (2020) Free vibration analysis of curved laminated composite beams with different shapes, lamination schemes and boundary conditions. Materials, 13(4), 1010. (JCR Q2)

[13] Qin, B., Zhong, R., Wang, Q.#, & Zhao, X. (2020). A Jacobi-Ritz approach for FGP beams with arbitrary boundary conditions based on higher-order shear deformation theory. Composite Structures, 112435. (JCR Q1)

[14] Wang, Q., Zhong, R., Qin, B.#, & Yu, H.# (2020). Dynamic analysis of stepped functionally graded piezoelectric plate with general boundary conditions. Smart Materials and Structures, 29(3), 035022. (JCR Q1)

[15] Wang, Q., Xie, F., Liu, T., Qin, B.#, & Yu, H.# (2020). Free vibration analysis of moderately thick composite materials arbitrary triangular plates under multi-points support boundary conditions. International Journal of Mechanical Sciences, 105789. (JCR Q1)

[16] Wang, Q., Xie, F., Qin, B. #, Zhong, R., & Yu, H. (2020). Dynamics and power flow control of irregular elastic coupled plate systems: precise modeling and experimental validation. International Journal of Mechanical Sciences, 105760. (JCR Q1)

[17] Qin, B., Wang, Q.#, Zhong, R., Zhao, X., Shuai, C. (2020). A three-dimensional solution for free vibration of FGP-GPLRC cylindrical shells resting on elastic foundations: a comparative and parametric study. International Journal of Mechanical Sciences, 105896 (JCR Q1)