基于半解析法的圆柱壳结构自由振动特性分析

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摘要基于Reissner-Naghdi’s线性薄壳理论和区域能量分解法，将圆柱壳沿周向分解为若干壳段，用Chebyshev多项式和傅里叶级数表示壳段的位移函数，并引入最小二乘残差来消除计算的不稳定性，建立边界条件参数来模拟不同边界条件，最后采用变分原理得到圆柱壳结构的振动模态。在此基础上，对最小二乘加权参数的收敛性进行了分析，并通过大量的有限元仿真计算验证了本文方法的有效性。最后对一般边界条件下柱壳结构自由振动特性进行了分析，研究成果可为一般边界条件下圆柱壳结构自由振动特性分析提供数据积累和方法依据。

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	庞福振
	田宏业
	李海超
	刘江涛

关键词 ：圆柱壳, 半解析法, 自由振动, 一般边界条件

Abstract：Based on the Reissner-Naghdi’s linear thin shell theory and regional energy decomposition method, a cylindrical shell was decomposed into several shell segments along the circumferential direction. The Chebyshev determinant and Fourier series were used to express the displacement function of the shell segment. The least squares residuals were introduced to eliminate the instability of the calculation, and boundary condition parameters were established to simulate different boundary conditions. The vibration modal of the cylindrical shell was obtained by virtue of the variational principle. On this basis, the convergence of the weighted least squares parameters was analyzed, and a large number of finite element simulation calculations verified the effectiveness of the proposed method.Finally, the free vibration characteristics of cylindrical shells under general boundary conditions were analyzed. The research results provide data accumulation and method basis for the free vibration analysis of cylindrical shells under general boundary conditions.

Key words： Cylindrical shell Semi analytic method Free vibration General boundary conditions

收稿日期: 2018-03-28 出版日期: 2019-11-15

引用本文:

庞福振；田宏业；李海超；刘江涛. 基于半解析法的圆柱壳结构自由振动特性分析[J]. 振动与冲击, 2019, 38(22): 21-28.
LI Haichao,PANG Fuzhen,TIAN Hongye,LIU Jiangtao. Semi-analytical method for the free vibration characteristics analysis of cylindrical shells. JOURNAL OF VIBRATION AND SHOCK, 2019, 38(22): 21-28.

链接本文:

http://jvs.sjtu.edu.cn/CN/ 或 http://jvs.sjtu.edu.cn/CN/Y2019/V38/I22/21

[1] Rayleigh J. The theory of Sound [M]. NewYork: Dover Publications, 1945.
[2] Galletly G D，MistryJ. The free vibrations of cylindrical shells with various end closures[J]. Nuclear Engineering and Design，1974，30(2): 249~268.
[3] Cheng L，Nicholas J. Free vibration analysis of a cylindrical shell-circular plate system with 6 general coupling and various boundary conditions [J]. Journal of Sound and Vibration，1992，155(2): 231~247.
[4]骆东平，张玉红.环肋增强柱壳振动特性分析[J].中国造船，1989，104(1): 64 ~74.
LUO Dong-ping, ZHANG Yu-hong. Analysis of Vibration Characteristics of Circular Rib Reinforced Cylindrical Shells[J]. Shipbuilding of China, 1989，104(1): 64 ~74.
[5] Yu Y Y.Free vibrations of thin cylindrical shells having finite lengths with freely supported and clamped edges [J]. Journal of Applied Mechanics,1955, 22: 547~552.
[6] 王宇,罗忠.薄壁圆柱壳构件受迫振动的响应特征研究[J].振动与冲击,2015,34(07):103-108.
Wang Yu, Luo Zhong. Forced vibration response characteristics of thin cylindrical shell[J]. Journal of Vibration and Shock, 2015,34(07):103-108.
[7] 汪志强,李学斌,黄利华.基于波传播方法和多元分析的正交各向异性圆柱壳振动特性研究[J]. 振动与冲击, 2018, 37(7): 227-232.
WANG Zhiqiang，LI Xuebin，HUANG Lihua. Vibration characteristics of orthotropic circular cylindrical shells based on wave propagation approach and multi-variate analysis[J]. Journal of Vibration and Shock, 2018, 37(7): 227-232.
[8] 向宇,孙润,陆静,等.求解饱和多孔介质圆柱壳动力学问题的一种半解析方法[J].振动与冲击, 2018, 37(1): 208-215.
XIANG Yu,SUN Run,LU Jing,et al.Semi-analytical method for solving the dynamic behaviors of a fluid-saturated porous cylindrical shell[J].Journal of Vibration and Shock, 2018, 37(1): 208-215.
[9] Li Haichao, Pang Fuzhen, Miao Xuhong, et al. A semi-analytical method for vibration analysis of stepped doubly-curved shells of revolution with arbitrary boundary conditions[J]. Thin-Waller Structures,2018,129:125-144.
[10] 庞福振,吴闯,王献忠,姚熊亮. 水下加筋圆柱壳声辐射特性分析的改进精细传递矩阵法[J]. 振动与冲击, 2017, 36(22): 131-137.
Pang Fu-zhen, Wu Chuang, Wang Xian-zhong, Yao Xiong-liang. Improved precise transfer matrix method for acoustic radiation of ring-stiffened cylindrical shell[J]. Journal of Vibration and Shock, 2017, 36(22): 131-137.
[11] Pang F, Li H, Wang X, et al. A semi analytical method for the free vibration of doubly-curved shells of revolution[J]. Computers & Mathematics with Applications, 2018, 75(9): 3249-3268. WOS:000432102900014
[12] 钱伟长.弹性理论中广义变分原理的研究及其在有限元计算中的应用(续)[J].力学与实践, 1979, 1(2):16-24.
Qian Wei Chang.Study of generalized variational principle in elasticity theory and its application in finite element calculation (Continued) [J]. Mechanics and Practice, 1979, 1(2):16-24.
[13] Zienkiewicz, O.C., Taylor, R.L., Zhu, J.Z. The finite element method: its basis and fundamentals, 6th Edition [M]. Singapore: Elsevier Pte Ltd., 2008.
[14] 宋文煜.潜孔锤钻柱振动特性分析[D].中国地质大学(北京), 2016.
Song Wen Yi.Analysis of vibration characteristics of DTH hammer drill string [D]. China University of Geosciences (Beijing) 2016.
[15] Zhou D, Cheung Y K, Lo S H, et al. 3D vibration analysis of solid and hollow circular cylinders via Chebyshev–Ritz method[J]. Computer methods in applied mechanics and engineering, 2003, 192(13): 1575-1589.
[16] Pellicano F. Vibrations of circular cylindrical shells: theory and experiments[J]. Journal of Sound and Vibration, 2007, 303(1): 154-170.
[17] Pang F, Li H, Choe K, et al. Free and Forced Vibration Analysis of Airtight Cylindrical Vessels with Doubly Curved Shells of Revolution by Using Jacobi-Ritz Method[J]. Shock and Vibration, 2017, 2017.
[18] Naeem M N, Sharma C B. Prediction of natural frequencies for thin circular cylindrical shells[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2000, 214(10): 1313-1328.
[19] Xiang Xie, Guoyong Jinn , Zhigang LiuFree vibration analysis of cylindrical shells usingthe Haar wavelet method. International Journal of Mechanical Sciences 77 (2013) 47–56.
[20] Xiang Y, Ma YF, Kitipornchai S, Lim CW, Lau CWH. Exact solution for vibration of cylindrical shells with intermediate supports. International Journals of Mechanical Sciences 2002;44:1907–24.