为降低充水加肋圆柱壳受内部点声源激励时的辐射噪声,在其外表面整体敷设了气囊式声学覆盖层。气囊式声学覆盖层由内外层橡胶蒙皮与内部充入的气体组成,并在外层蒙皮中嵌入一层较薄的铝质芯板或在外层蒙皮中嵌入等间距的钢丝环。采用声无限元法,计算敷设气囊式声学覆盖层的充水圆柱壳的水下辐射噪声,结果表明采用铝板加强外层蒙皮的气囊式声学覆盖层可以降低充水气囊圆柱壳的水下辐射噪声,而采用钢丝环加强外层蒙皮则不能够降低充水气囊圆柱壳的水下辐射噪声。
A gas-bag is coated on the cylindrical shell in order to reduce its vibration and radiated noise when excited by force. The gas-bag coating consists of the inner and outer coating and the gas filled in, with the outer covering built in a very thin aluminum layer or steel wire rings. The acoustic infinite element method (IEM) is adopted to calculate the underwater radiated noise of the gas-bag coated cylindrical shell. Results show that the gas-bag coating stiffened by the aluminum layer can reduce the underwater radiated noise of the water-filled gas-bag coated cylindrical shell in lower bands, while the gas-bag coating stiffened by steel wire rings can't reduce the radiated noise of the gas-bag shell.
2017,39(6): 62-65 收稿日期:2016-03-15
DOI:10.3404/j.issn.1672-7619.2017.06.013
分类号:U661.44
作者简介:段嘉希(1987-),男,博士研究生,研究方向为舰艇振动与噪声控制。
参考文献:
[1] LAULAGNET B, GUYADER J L. Sound radiation from finite cylindrical shell covered with a compliant layer[J]. Journal of Vibration and Acoustics, 1991, 113:267-272.
[2] 陶猛, 汤渭霖, 范军. 柔性去耦覆盖层降噪机理分析[J]. 船舶力学, 2010, 14(4):421-429.TAO Meng, TANG Wei-lin, FAN Jun. Mechanism analysis of noise reduction by compliant decoupling layers[J]. Journal of Ship Mechanics, 2010, 14(4):421-429.(in Chinese).
[3] KERWIN E M. Damping of flexural waves by a constrained viscoelastic layer[J]. Journal of the Acoustical Society of America 1959; 31:952-962.
[4] 王绪文, 张用兵, 孙英富. 水下隔声去耦覆盖层的研究[J]. 功能材料, 2007, 38:3715-3719.WANG Xu-wen, ZHANG Yong-bing, SUN Ying-fu. The research about the underwater isolating-sound and decoupling coating[J]. Journal of Functional Materials, 2007, 38:3715-3719.
[5] 谭路, 纪刚, 张纬康. 采用波数域方法分析细长柱壳的振动与声辐射特性[J]. 海军工程大学学报, 2013, 25(3):66-71.TAN Lu, JI Gang, ZHANG Wei-kang. Slender cylindrical vibration and radiation by use of wave-number domain approach[J]. Journal Naval University of Engineering, 2013, 25(3):66-71.
[6] CAO Xiong-tao, MA Chao, HUA Hong-xing. Acoustic radiation from thick laminated cylindrical shells with sparse cross stiffeners[J]. Journal of Vibration and Acoustics, 2013, 135, 031009:1-10.
[7] 段嘉希, 周其斗, 郑晗. 敷设气囊的充水圆柱壳的声辐射特性[J]. 国防科技大学学报.DUAN Jia-xi, ZHOU Qi-dou, ZHENG Han. Underwater acoustic radiation of gas-bag coated water-filled cylindrical shell[J]. J National Univ of Defense Technology.
[8] ASTLEY R J, HAMILTON J A. The stability of infinite element schemes for transient wave problems[J]. Comput. Methods Appl. Mech. Engrg, 2006, 195:3553-3571.
[9] 郑晗, 周其斗, 谢志勇. 一种基于NASTRAN无限元技术的导管声学计算方法[J]. 海军工程大学学报, 2015, 27(1):68-73.ZHENG Han, ZHOU Qi-dou, XIE Zhi-yong. A calculation method for duct acoustics based on NASTRAN infinite element technology[J]. Journal Naval University of Engineering, 2015, 27(1):68-73.
