Sound absorption performance of gradiently slit-perforated double-porosity materials

来源 :声学学报(英文版) | 被引量 : 0次 | 上传用户:chenmojay
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
A gradiently slit-perforated double-porosity material is proposed by introducing macro-scale periodic gradient slit-perforations into traditional porous materials with single-porosity.This material is one kind of multiscale material since it includes two scales of matrix micro-pore size and slit-perforation size.A theoretical model is developed for the sound ab-sorption of the gradiently slit-perforated double-porosity material.In the model,the material is divided into lots of thin layers and each layer is approximated to be straight slit-perforated material.The equivalent density and dynamic compressibility of each thin layer are given by using the low or high permeability contrast double-porosity theory.Then the sound pressure and particle velocity relations between adjacent thin layers are obtained by employing the trans-fer matrix method.Finally,the surface acoustic impedance and the sound absorption of the gradiently slit-perforated porous material can be calculated.A finite element model is further established to validate the accuracy of the theoretical model.In the considered frequency range of 100-3000 Hz,the simulation results agree well with theoretical results.The influence of multiscale structural parameters on the sound absorption performance of the porous materials is analyzed theoretically and numerically.It is proved that the multiscale structure design can significantly improve the sound absorption performance of porous materials.Compared to the slit-perforation gradient,the slit-perforation width plays a more significant influence on sound absorption.The sound absorption enhancement mechanism of the multiscale structure design is revealed by the analysis of the sound pressure and energy dissipation distributions in the material.This work provides a multiscale structural design method for improving the sound absorption performance of traditional porous materials at broadband frequency.
其他文献
In order to improve the localization accuracy of the distributed passive location system in the ocean acoustic field,a sensor configuration method is proposed b
期刊
Up to now,there is no definite conclusion about the magnitude range or even the sign (positive or negative) of nonlinear coefficients of rocks in nature.In this
期刊
To get desired sound absorption,we proposed a novel periodic composite structure comprised of micro-perforated plates(MPPs),porous materials and air cavities.Th
期刊
Flow-area (QA) method and ln(diameter)-velocity (ln(D)U) methods based on si-multaneous measurements of velocity (U) and arterial diameter (D) using ultrasound
期刊
Revegetation is one of the successful approaches to soil consolidation and streambank protection in reservoir water level fluctuation zones(WLFZs).However,littl
An underwater acoustic transducer with dual-Helmholtz resonators is presented.The acoustic output of flexural disc transducer below its resonant frequency can b
期刊
Rab蛋白是Ras超家族成员,是一类小分子GTP结合蛋白.在大分子物质进入细胞的内吞途径和细胞器间的物质转运过程中,Rab蛋白通过招募其效应蛋白可作用于囊泡形成、转运、黏附和
近年来,光纤记录系统作为一种记录自由活动动物大脑特定核团神经元活动的技术,在神经科学领域研究中广受欢迎,是研究动物神经元活动与行为关系的重要技术手段.本文综述了单通
Three-dimensional(3D) imaging sonars based on the conventional beamforming(CBF) suffers from relatively wide main-lobes and high sidelobe level.To improve the spatial resolution of 3D imaging sonars,a
期刊
水文是沼泽形成、发育和演化的决定性因素。目前,沼泽水位的监测仍然以实地观测为主,需要花费大量的人力和物力。以洪河国家级自然保护区为研究区,利用2007年6~10月星载相控阵L波段合成孔径雷达(phase array type L-band synthetic aperture radar,L-band PALSAR)数据和2015年6~11月C波段Sentinel-1A合成孔径雷达(synthet