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文章以自主水下航行器(AUV)振动噪声抑制及其隐秘性提高为研究背景,提出了一种含有轴承非线性的AUV振动-声学模型,并通过寻找共振转换器(RC)最佳设计参数使壳体产生的振动声辐射功率级最小,达到反共振的目的.首先通过Lagrange法建立了含有浆-轴-壳的双梁系统有限元模型,基于赫兹接触理论加入轴承非线性因素,然后根据声传播原理推出了声偶极子辐射场模型;然后,采用Runge-Kutta法求解了系统振动响应,通过时域响应、频谱、分岔和幅频响应图等后处理信号分析了系统的动力学特征;最后,以壳体声功率级作为代价函数并根据响应分析结果,对RC进行参数设计.通过对比非线性轴承和线性弹簧两种支撑,发现AUV在非线性轴承支撑下壳体振动辐射声功率级主体趋势是沿着线性结果分布的,同时均高于线性弹簧支撑下的系统噪声,并且在对应共振区域达到峰值;同时结果显示RC装置能够大幅度降低系统共振响应幅值及振动辐射声功率级,尤其在共振频率设计点处减振降噪效果最为显著,在共振频率设计点处频率没有发生偏移,但在其他个别区间内,除了最大共振幅值降低明显之外,共振频率产生一定的偏移.文章的理论模型揭示了AUV动力学响应特征及... 相似文献
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Reaction of a new type of bidentate ligand PhPQu [ PhPQu = 2-diphenylphosphino-4-methylquinoline] with Fe(CO)5 in bu-tanol gave trans-Fe(PhPQu-P)(CO)3 (1).Compound 1,which can act as a neutral tridentate organometallic ligand,was reacted with I B,II B metal compounds and a rhodium complex to give six binuclear complexes with Fe-M bonds,Fe(CO)3(u-Ph2PQu)MXn(2-7) [M=Zn(Ⅰ),Cd(Ⅱ),Hg(Ⅱ),Cu(Ⅰ),Ag(Ⅰ),Rh(Ⅰ)],and an ion-pair complex [Fe(CO)3(n-Ph2PQu)2HgI][HgI3]- (8).The structure of 8 was determined by X-ray crystallography.Complex 8 crystallizes in the space group P-1 with a=1.0758(3),b= 1.6210(4),c = 1.7155(4) nm; a = 75.60(2)β=71.81(2),Y = 81.78(2) and Z = 2 and its structure was refined to give agreement factors of R =0.050 and Rw = 0.057.The Fe-Hg bond distance is 0.2536 nm. 相似文献
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