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瞿叶高
2023-05-12 21:28
  • 瞿叶高
  • 瞿叶高 - 副研究员-上海交通大学-振动冲击噪音研究所-个人资料

近期热点

资料介绍

近期论文


[1] J. Li, Y. Qu, H. Hua. Hydroelastic analysis of underwater rotating elastic marine propellers by using a coupled BEM-FEM algorithm. Ocean Engineering, 2017, 146, 178–191.
[2] J. Li, Y. Qu, H. Hua. Numerical analysis of added mass and damping of elastic hydrofoils. Journal of Hydrodynamics, 2017, accepted.
[3] Y. Qu, R. C. Batra. An immersed boundary formulation for simulating high speed compressible viscous flows with moving solids. Journal of Computational Physics, 2017, revised.
[4] Y. Qu, R.C. Batra. Constrained moving-least squares immersed boundary method for fluid-structure interaction analysis. International Journal for Numerical Methods in Fluids, 2017, doi:10.1002/fld.4400.
[5] Y. Qu, J. Su, H. Hua, G. Meng. Structural vibration and acoustic radiation of coupled propeller-shafting and submarine hull system due to propeller forces. Journal of Sound and Vibration, 2017,401,76–93..
[6] Y. Qu, G. Meng. Nonlinear vibration and sound radiation of composite sandwich plates with skin‐core debondings. AIAA Journal, 2017, 55(5): 1723-1733.
[7] Y. Qu, G. Meng. Prediction of acoustic radiation from functionally graded shells of revolution in light and heavy fluids. Journal of Sound and Vibration, 2016, 376, 112-130.
[8] Y. Qu, H. Hua, G. Meng. Vibro-acoustic analysis of coupled spherical- cylindrical- spherical shells stiffened by ring and stringer reinforcements. Journal of Sound and Vibration, 2015, 355, 345-359.
[9] Y. Qu, G. Meng. Vibro-acoustic analysis of multilayered shells of revolution based on a general higher-order shear deformable zig-zag theory. Composite Structures, 2015, 134, 689-707.
[10] Y. Qu, S. Wu, H. Li, G. Meng. Three-dimensional free and transient vibration analysis of composite laminated and sandwich rectangular parallelepipeds: Beams, plates and solids. Composites Part B: Engineering, 2015, 73, 96-110.
[11] Y. Qu, G. Meng. Dynamic analysis of composite laminated and sandwich hollow bodies of revolution based on three-dimensional elasticity theory. Composite Structures, 2014, 112, 378-396.
[12] Y. Qu, G. Meng. Three-dimensional elasticity solution for vibration analysis of functionally graded hollow and solid bodies of revolution. Part I: Theory. European Journal of Mechanics - A: Solids, 2014, 44, 222-233.
[13] Y. Qu, G. Meng. Three-dimensional elasticity solution for vibration analysis of functionally graded hollow and solid bodies of revolution. Part II: Application. European Journal of Mechanics - A: Solids, 2014, 44, 234-248.
[14] Y. Qu, X. Long, S. Wu, G. Meng. A unified formulation for vibration analysis of composite laminated shells of revolution including shear deformation and rotary inertia. Composite Structures, 2013, 98, 169-191.
[15] Y. Qu, G. Yuan, S. Wu, G. Meng. Three-dimensional elasticity solution for vibration analysis of composite rectangular parallelepipeds. European Journal of Mechanics - A: Solids, 2013, 42, 376-394.
[16] Y. Qu, X. Long, G. Yuan, G. Meng. A unified formulation for vibration analysis of functionally graded shells of revolution with arbitrary boundary conditions. Composites Part B: Engineering, 2013, 50, 381-402.
[17] Y. Qu, X. Long, H. Li, G. Meng. A variational formulation for dynamic analysis of composite laminated beams based on a general higher-order shear deformation theory. Composite Structures, 2013, 102, 175-192.
[18] Y. Qu, S. Wu, Y. Chen, H. Hua. Vibration analysis of ring-stiffened conical – cylindrical–spherical shells based on a modified variational approach. International Journal of Mechanical Sciences, 2013, 69, 72-84.
[19] Y. Qu, H. Hua, G. Meng. A domain decomposition approach for vibration analysis of isotropic and composite cylindrical shells with arbitrary boundaries. Composite Structures, 2013, 95, 307-321.
[20] Y. Qu, Y. Chen, X. Long, H. Hua, G. Meng. Free and forced vibration analysis of uniform and stepped circular cylindrical shells using a domain decomposition method. Applied Acoustics, 2013, 74(3), 425-439.

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