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 年 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.