简介:Basedontheprincipleofimpedancemismatching,theperformanceofrigidvibrationisolationmassinimpedingvibrationwavepropagationwasdiscussedfromtheperspectiveofwaveapproach.BasedonFEM,theinfluenceofitsweightaswellasthecross-sectionshapeparametersontheisolationperformanceofrigidvibrationisolationmasswasstudiedthroughnumericalsimulation.Theresultsshowthatrigidvibrationisolationmasscaneffectivelyimpedethepropagationofthemediumandhighfrequencyvibrationwaves,andtheheavierthevibrationisolationmass,thebettertheisolationperformance.Forlowfrequencywaves,thevibrationisolationeffectisnotsoobvious;forarectangularvibrationisolationmass,theisolationperformancecouldbeeffectivelyimprovedbyincreasingthecross-sectionheightandreducingthecross-sectionwidth.Ausefulreferencewasprovidedfortheapplicationofrigidvibrationisolationmassestothevibrationisolationandnoisereductionofshipstructure.
简介:摘要:防风网作为新兴的减风降尘手段,被港口散货码头和砂石料矿场这类易产生粉尘污染的工地广泛使用。本文通过在风洞中测量平面防风网板网后各位置的风速,选取风速折减率作为衡量减风效果的标准,绘制风速折减率曲线,从平行风向与垂直风向两个角度分析网后各位置的减风特性。结果表明,在平行风向的各断面上,风速折减率曲线大致呈抛物线,极值点位于距网材 4至 6倍网高位置;在垂直风向各断面上,风速折减率曲线的形状受断面离网距离的影响,随着距离增大,曲线由倒“ C”型逐渐过渡为倒“ S”型,最终变为线性,线性时断面底部风速折减率最高。整体看最佳遮蔽位置位于网后 6倍网高处,且风速越高网材的减风效果越好。