船舶力学
船舶力學
선박역학
JOURNAL OF SHIP MECHANICS
2008年
6期
995-1006
,共12页
多舱段结构%多源激励%辐射声场%声场叠加%非相干叠加
多艙段結構%多源激勵%輻射聲場%聲場疊加%非相榦疊加
다창단결구%다원격려%복사성장%성장첩가%비상간첩가
multiple compartment shell structure%multiple excitations%radiated acoustic field%sound superposition%incoherent superposition
设计了一个接近实际情况的多舱段复杂壳体模型,安装小型机械设备,分别进行了单台设备激励与多台设备同时激励的水下复杂壳体振动与声辐射试验;试验结果表明,多源激励下水中复杂壳体的结构响应、辐射声场近似为单源激励下结构响应、辐射声场的非相干叠加.然后从结构声辐射理论上推导了激励源与结构响应、辐射声场之间的传递关系,并以两个源激励为例分析了非相干叠加引起的误差,从而解释了多源激励下结构响应、辐射声场近似为单源激励下结构响应、辐射声场非相干叠加的合理性.这些研究表明,非相干叠加方法可推广应用于水下复杂壳体在多源激励情况下的振动与声场计算,对指导工程设计具有重要价值.
設計瞭一箇接近實際情況的多艙段複雜殼體模型,安裝小型機械設備,分彆進行瞭單檯設備激勵與多檯設備同時激勵的水下複雜殼體振動與聲輻射試驗;試驗結果錶明,多源激勵下水中複雜殼體的結構響應、輻射聲場近似為單源激勵下結構響應、輻射聲場的非相榦疊加.然後從結構聲輻射理論上推導瞭激勵源與結構響應、輻射聲場之間的傳遞關繫,併以兩箇源激勵為例分析瞭非相榦疊加引起的誤差,從而解釋瞭多源激勵下結構響應、輻射聲場近似為單源激勵下結構響應、輻射聲場非相榦疊加的閤理性.這些研究錶明,非相榦疊加方法可推廣應用于水下複雜殼體在多源激勵情況下的振動與聲場計算,對指導工程設計具有重要價值.
설계료일개접근실제정황적다창단복잡각체모형,안장소형궤계설비,분별진행료단태설비격려여다태설비동시격려적수하복잡각체진동여성복사시험;시험결과표명,다원격려하수중복잡각체적결구향응、복사성장근사위단원격려하결구향응、복사성장적비상간첩가.연후종결구성복사이론상추도료격려원여결구향응、복사성장지간적전체관계,병이량개원격려위례분석료비상간첩가인기적오차,종이해석료다원격려하결구향응、복사성장근사위단원격려하결구향응、복사성장비상간첩가적합이성.저사연구표명,비상간첩가방법가추엄응용우수하복잡각체재다원격려정황하적진동여성장계산,대지도공정설계구유중요개치.
A design of complex multiple compartment shell model with some small mechanical fa-cilities, which is used to simulate real ships, is introduced in this paper. The underwater vibration and acoustic radiation experiments with single and multiple excitations are implemented and related research work is also provided.Results show that the response of complex structure and sound pres-sure which are caused by multiple excitations can be approximately analysed by the approach of in-coherent superposition of individual excitation.The transitive relation between the vibro-acoustic characteristics of the submerged complex structure with multiple excitations and that with individual excitation are deduced analytically. The error of incoherent superposition is also estimated by an ex-ample of with two excitation so as to validate this approximation.It is indicated that the incoherent superposition approach can be applied to investigate the vibration and sound radiation of more complex multiple compartment shell structures with multiple excitations and it is especially useful for both qualitative and quantitative evaluation at design stages of practical structures.