开展舰船隔振器安装参数与隔振效果相关性试验研究可为隔振器建造声学质量检测提供重要支撑。以典型船用隔振器为研究对象,首先梳理出舰船建造过程中对隔振器隔振效果影响较为显著的安装参数,接着通过系列化的工艺试验分析隔振器紧固力矩和安装面间隙对隔振效果的影响规律。在大量实船测试数据的基础上,基于多元统计分析得到了典型隔振器各安装工艺参数对隔振效果的贡献量。结果表明:BE300型隔振器隔振效果与预紧力矩、底面贴合间隙呈现复杂的变化规律,建议去除底面橡胶并选取适当预紧力矩进行安装;隔振效果与隔振器下水后变形量、连接管路后变形量、垫片厚度在多个1/3倍频程中心频率处呈现强相关性。
Abstract
Tests for the correlation between ship vibration isolator installation parameters and vibration isolation effect are a key to support vibration isolator acoustic quality measuring.Here, typical ship vibration isolators were taken as a study object, their installation parameters being sensitive to vibration isolation effect in ship building process were found.Furthermore, the influence laws of vibration isolator’s mounting surface clearance and pre-tightening moment on vibration isolation effect were analyzed through series of process tests.Based on a great amount of actual ships test data, each installation parameter’s contribution to vibration isolation effect was obtained based on the multi-variate statistical analysis.The results showed that the BE300 vibration isolator’s vibration isolation effect is complexly related to its pre-tightening moment and bottom bonding clearance; its installation after removing bottom rubber and choosing proper pre-tightening moment is suggested; its vibration isolation effect is strongly correlated to its underwater deformation, its deformation after connecting pipes and gasket thickness at central frequencies of several 1/3 octave paths.
关键词
舰船隔振器 /
安装参数 /
隔振效果 /
实船试验
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参考文献
[1] Cemer L, Heckl M, Ungar E E. Structure-borne Sound[M]. Second edition. Berlin: Springer -Verlag. 1988:316-334.
[2] 张针粒, 李世其, 朱文革等.新型近等强度高阻尼航天载荷隔振器研究[J]. 振动与冲击,2012, 31(11):1-6.
Zhang Zhenli, Li Shiqi, Zhu Wenge.New quasi-equal strength and high damping isolator for spacecraft payload. [J]. Journal of Vibration and Shock, 2012, 31(11):1-6.
[3] 葛孚宁,叶珍霞. 聚氨酯隔振器的特性[J]. 海军工程大学学报,2014, 26(2):64-67.
Ge Funing, Ye Zhenxia. Study on polyurethane vibration isolator [J]. Journal of Naval University of Engineering, 2014, 26(2):64-67.
[4] 黄伍德, 陈光治, 车驰东. 基于橡胶刚度频散的隔振器阻抗研究[J]. 振动与冲击,2016, 35(9):164-167.
Huang Wude, Cheng Guangzhi, Che Chidong. Rubber isolator impedance on stiffness dispersion [J]. Journal of Vibration and Shock, 2016, 35(9):164-167.
[5] 计方, 路晓东, 王锋等. 基于数值试验的减振器阻抗特性研究[J]. 船舶,2013, 24(2):39-45.
Ji Fang, Lu Xiaodong, Wang Feng. Numerical experimentation on mechanical impedance of vibration isolator [J]. Ship and Boat,2013, 24(2):39-45.
[6] 许锐,徐建龙,郭宁等.隔振器不同安装工艺对浮筏声学性能的影响[J]. 舰船科学技术,2014, 36(8):98-103.
Xu Rui, Xu Jianlong, Guo Ning. Research on the impedance of vibration isolator with different fixing technique to floating raft's acoustical performance[J]. Ship Science And Technology, 2014, 36(8):98-103.
[7] 王杰, 赵寿根, 吴大方. 隔振器动力学参数的测试方法研究[J].振动工程学报,2014, 276(6):885-892.
Wang Jie, Zhao Shougen, Wu Dafang. A test method of dynamic parameters of vibration isolators[J]. Journal of Vibration Engineering, 2014, 276(6):885-892.
[8] 朱石坚,何琳.船舶机械振动控制[M].北京: 国防工业出版社,2006.
[9] 张生乐,许锐,高亚坤.马脚隔振器底部螺栓紧固力矩对振动传递影响试验研究[J]. 船海工程,2013, 42(6):61-68.
Zhang Shengle,Xu Rui,Gao Yakun. Experimental Study on Influence of Tightening Moment of Root Bolt upon Vibration Transfer[J]. Ship and Ocean Engineering,2013, 42(6):61-68.
[10] 张梗林.宏观负泊松比效应蜂窝基座及防护结构减振与抗爆性能设计[D].上海交通大学硕士学位论文,2014.
[11] 邱皓政.量化研究与统计分析[M].重庆: 重庆大学出版社,2013.
[12] J.R. Van Dorp, T.A. Mazzuchi. A general Bayes Weibull inference model for accelerated life testing[J].Reliability Engineering and System Safety.2005, 26(7):140-147.
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