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成果及论文


代表论文

[1]      Xianzhong Wang, et al. Structural-Acoustic Modeling and Analysis of Carbon/Glass Fiber Hybrid Composite Laminates[J]. International Journal of Structural Stability and Dynamics, 2020, 1: 12-23.

[2]      Wang X, Lin H, Zhu Y, et al. Vibro-acoustic modelling of immersed cylindrical shells with variable thickness. International Journal of Naval Architecture and Ocean Engineering. 2019 Dec 30.

[3]      Wang X, Chen D, Xiong Y, et al. Simulation and investigations on the vibro-acoustic responses of immersed cylindrical shells in ideal ice-covered water. Results in Physics. 2019 Oct 17.

[4]      Wang X, Xu E, Jiang C, et al. Vibro-acoustic behavior of double-walled cylindrical shells with general boundary conditions. Ocean Engineering. 2019 Nov 15; 192: 106529.

[5]      Wang, Xianzhong, Jiang, Quanzhou, Xiong, Yeping and Guo, Xin (2019) Experimental studies on the vibro-acoustic behavior of a stiffened submerged conical-cylindrical shell subjected to force and acoustic excitation. Journal of Low Frequency Noise, Vibration and Active Control.

[6]      Wang X, Chen D, Xiong Y, et al. Experiment and modeling of vibro-acoustic response of a stiffened submerged cylindrical shell with force and acoustic excitation[J]. Results in Physics, 2018, 11:315-324.

[7]      Xianzhong W, Enhui X, Zhe C, et al. A semi-analytical solution for free vibration of thick orthotropic annular sector plates with general boundary conditions, internal radial line and circumferential arc supports[J]. Ocean Engineering, 2018, 163:679-690.

[8]      Wang X Z. Vibration Analysis and Energy Transmission of Finite Coupled Mindlin Plates[J]. International Journal of Structural Stability & Dynamics, 2016:1771007.

[9]      Wang X, Guo W. Dynamic modeling and vibration characteristics analysis of submerged stiffened combined shells[J]. Ocean Engineering, 2016, 127: 226-235.

[10]  Wang X, Jiang C, Xu R. Structural and acoustic response of a finite stiffened submarine hull[J]. China Ocean Engineering, 2016, 30(6): 898-915.

[11]  Wang X Z. Dynamic behavior of finite coupled Mindlin plates with a blocking mass[J]. Journal of Vibration and Acoustics, 2016, 138(6): 061008.

[12]  Wang X, Wu W, Yao X. Structural and acoustic response of a finite stiffened conical shell[J]. Acta Mechanica Solida Sinica, 2015, 28(2): 200-209.

[13]  Xiongliang Yao, Xianzhong Wang, A-man Zhang. Noise Reduction Analysis for a Stiffened Finite plate. Journal of Sound and Vibration,2014,333(1):228-245.

[14]  Fang Y, Wang X, Jiang C, et al. Experiment of the Vibration and Sound Radiation From Cylindrical Shell Under Force and Sound Excitation[C]//The 28th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers, 2018.

[15]  Wang, X., Xu, E., Chen, D., & Chen, Z. A Semi-Analytical Solution for Free Vibration of Thick Orthotropic Annular Sector Plates With General Boundary Conditions, Internal Radial Line and Circumferential Arc Supports. [C]//The 28th International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers, 2018.

[16]  王献忠,江晨半,计方,方月明有限长加筋圆柱壳水下声辐射的精细传递矩阵法[J]. 船舶力学,2017,21(04):503-511.

[17]  王献忠许瑞阳以任意角度连接的船体板的振动特性[J]. 中国造船, 2016, 57(2): 56-66.

[18]  王献忠环肋旋转壳声振特性分析的半数值方法[J]. 振动工程学报, 2015 (2015  05): 793-799.

[19]  王献忠,吴卫国,庞福振,孔祥韶基于谱方法分析有阻尼负载圆柱壳频散特性[J]. 振动与冲击,2015,06:13-17+23.

[20]  王献忠庞福振姚熊亮苏楠敷去耦层有限加筋板声辐射近似解析解.固体力学学报. 2012, 33(06): 583-591.

[21]  姚熊亮王献忠孙龙泉庞福振复杂结构中频声振问题的方法研究振动工程学报.2011, 24(04): 444-449.

[22]  王献忠孙龙泉姚熊亮.有阻尼负载时圆柱壳的声传递特性分析振动与冲击. 2012, 31(15): 116-120.

[23]  王献忠孙龙泉姚熊亮邱中辉部分敷设阻尼材料的水下结构声辐射分析振动与冲击. 2012,31(18): 122-127.

[24]  姚熊亮王献忠庞福振康蓬辉敷设阻尼层的有限长加筋板声振性能研究华中科技大学学报(自然科学版). 2012, 40(7): 119-123.

[25]  姚熊亮王献忠孙龙泉含阻振质量基座的圆柱壳隔振特性华中科技大学学报(自然科学版). 2012, 40(5): 50-53.

[26]  姚熊亮叶曦王献忠热环境中功能梯度圆柱壳声辐射特性研究工程力学. 2013, 30(6): 334-339.

[27]  金叶青庞福振姚熊亮王献忠基于板梁组合理论的正交加筋板声振特性分析振动工程学报.2012, 25(05): 579-586.

[28]  姚熊亮王献忠庞福振孙龙泉水下覆盖层结构的声学特性分析噪声与振动控制. 2010, 30(04): 1-5.

[29]  Xianzhong Wang, Xiongliang Yao, Qiangyong Wang, Shuai Lv. Numerical Analysis of a Blocking Mass Attenuating Wave Propagation. Journal of Marine Science and Application. 2011, 10(04): 490-494.

[30]  王献忠许瑞阳漆琼芳水下组合壳结构的声振特性研究[A]. 中国造船工程学会、船舶震动噪声重点实验室.第十五届船舶水下噪声学术讨论会论文集[C].中国造船工程学会、船舶震动噪声重点实验室, 2015: 6.


发明专利:

  [1] 王献忠姚熊亮庞福振孙龙泉可控型水下吸声板.

       [2]王献忠吴卫国周雍许瑞阳成任意角度连接的有限尺寸板结构振动响应的定量计算方法.

       [3]王献忠吴卫国漆琼芳许瑞阳一种基于精细算法的水中复杂组合壳结构振动响应计算方法.

[4]王献忠吴卫国漆琼芳复杂组合壳结构水下声辐射的定量计算方法.

[5]王献忠,周红雨.一种用于通风管路管道噪声控制的人工耳蜗式消声器, 2019.

[6]王献忠,姜权洲多边形双层框架气囊水下打桩降噪防尘结构, 2019.

[7]王献忠,姜权洲.水下打桩降噪的阵列截断圆锥壳气泡幕结构, 2019.