船舶力学
船舶力學
선박역학
JOURNAL OF SHIP MECHANICS
2013年
12期
1447-1459
,共13页
结构声衰减%快速预报%船舶结构%参数分析
結構聲衰減%快速預報%船舶結構%參數分析
결구성쇠감%쾌속예보%선박결구%삼수분석
structure-borne sound attenuation%fast vibration prediction%ship structures%parameter analysis
文章研究了典型船舶结构中加筋板的结构声传递规律,应用波分析法推导了加筋板多转角结构中的位移及能量传递表达式。此外,还应用有限元法分析了各种参数的影响,包括板厚、板长、板厚比、转角级数、加筋情况和转角形式。从计算结果可知,在船舶结构中,板厚和转角级数是影响振动衰减的重要因素,板长、转角形式板厚比和加筋情况也对其有一定的影响。转角角度的影响可以忽略。基于以上分析,文中提出了一个船舶结构振动衰减量预报公式,并对一缩尺船舶舱段模型进行了试验,从而验证了公式的有效性。这在船舶声学设计中对振动进行快速预报具有重要意义。
文章研究瞭典型船舶結構中加觔闆的結構聲傳遞規律,應用波分析法推導瞭加觔闆多轉角結構中的位移及能量傳遞錶達式。此外,還應用有限元法分析瞭各種參數的影響,包括闆厚、闆長、闆厚比、轉角級數、加觔情況和轉角形式。從計算結果可知,在船舶結構中,闆厚和轉角級數是影響振動衰減的重要因素,闆長、轉角形式闆厚比和加觔情況也對其有一定的影響。轉角角度的影響可以忽略。基于以上分析,文中提齣瞭一箇船舶結構振動衰減量預報公式,併對一縮呎船舶艙段模型進行瞭試驗,從而驗證瞭公式的有效性。這在船舶聲學設計中對振動進行快速預報具有重要意義。
문장연구료전형선박결구중가근판적결구성전체규률,응용파분석법추도료가근판다전각결구중적위이급능량전체표체식。차외,환응용유한원법분석료각충삼수적영향,포괄판후、판장、판후비、전각급수、가근정황화전각형식。종계산결과가지,재선박결구중,판후화전각급수시영향진동쇠감적중요인소,판장、전각형식판후비화가근정황야대기유일정적영향。전각각도적영향가이홀략。기우이상분석,문중제출료일개선박결구진동쇠감량예보공식,병대일축척선박창단모형진행료시험,종이험증료공식적유효성。저재선박성학설계중대진동진행쾌속예보구유중요의의。
Structure-borne sound attenuation in typical ship structure consisting of stiffeners rein-forced plates is studied. Displacement field and vibration energy transmission in reinforced multi-cor-ner structure are deduced by wave approach. And the influences of parameters including thickness, length, thickness ratio, junction order, density of stiffeners and junction forms on vibration reduction are investigated through numerical computation. It can be obtained from the computational results that plate thickness and junction order are the main factors influencing the vibration reduction. Plate length, junction forms, thickness ratio and stiffeners should also be taken into consideration in the prediction process, while junction angle can be ignored. Then, an engineering formula for vibration reduction prediction in ship structure is put forward based on parameter analysis, which is also vali-dated through the experiment on a scaled model simulating a hold section of a ship. This will be helpful for fast vibration reduction prediction during the acoustic design of ships.