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嵌入式质量块对隔声门低频段隔声性能的影响
引用本文:夏兆旺,薛斌,许祥曦,苏战发,王宗耀,方媛媛.嵌入式质量块对隔声门低频段隔声性能的影响[J].应用声学,2020,39(6):916-923.
作者姓名:夏兆旺  薛斌  许祥曦  苏战发  王宗耀  方媛媛
作者单位:江苏科技大学,江苏科技大学,江苏科技大学,江苏科技大学,江苏科技大学,江苏科技大学
基金项目:江苏自然科学基金(BK20191462)
摘    要:针对隔声门低频隔声性能差的问题,将嵌入式质量应用于隔声门中以提高隔声门在低频段的隔声性能,通过建立两个相邻混响室的有限元模型计算隔声门的隔声量。基于该模型,并结合隔声门低频隔声性能的评价方法,对在低频段影响隔声门有效隔声量的相关参数进行了参数关联性研究和优化,优化结果表明:对于92 mm厚,容重24 kg/m3的玻璃棉,使用灰铸铁作为质量块,并合理布置各个质量块的大小及其在玻璃棉中的相对位置可以有效提高隔声门在低频段的隔声性能;与普通隔声门相比,在低频段嵌入式质量隔声门的有效隔声量增加了5.0 dB。

关 键 词:隔声门  嵌入式质量  低频噪声  响应面  遗传算法
收稿时间:2020/3/9 0:00:00
修稿时间:2020/10/30 0:00:00

The effect of the embedded mass on the low-frequency sound transmission loss of soundproof doors
Xia Zhaowang,Xue Bin,Xu Xiangxi,Su Zhanf,Wang Zongyao and Fang Yuanyuan.The effect of the embedded mass on the low-frequency sound transmission loss of soundproof doors[J].Applied Acoustics,2020,39(6):916-923.
Authors:Xia Zhaowang  Xue Bin  Xu Xiangxi  Su Zhanf  Wang Zongyao and Fang Yuanyuan
Institution:Jiangsu University of Science and Technology,Jiangsu University of Science and Technology,Jiangsu University of Science and Technology,Jiangsu University of Science and Technology,Jiangsu University of Science and Technology,Jiangsu University of Science and Technology
Abstract:It is well known that the low-frequency noise is harder to control than that in high frequency. This paper applies embedded masses to soundproof doors to improve its low-frequency sound insulation. It uses a finite element model of two adjacent reverberation rooms to calculate the transmission loss of the soundproof door. Based on this model and the low-frequency noise evaluation method, the parameter correlation and optimization of the parameters affecting the low-frequency effective sound insulation of the soundproof door are carried out. The optimization results show that for 92 mm thick glass wool with a bulk density of 24 kg/m3, the low-frequency sound insulation of the soundproof door can be effectively improved by using cast iron as the embedded masses and arranging the position of each mass reasonably. Compared with regular soundproof doors, the low-frequency effective sound insulation of the optimized soundproof door has increased by 5.0 dB.
Keywords:soundproof door  embedded masses  low-frequency noise  response surface  genetic algorithm
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