泡沫铝材料声学参数计算及其应用  

作　　者：张学勇 魏定源[1,2] 戴梦超 马田伟 张学庆 周玉坤 ZHANG Xueyong;WEI Dingyuan;DAI Mengchao;MA Tianwei;ZHANG Xueqing;ZHOU Yukun(School of Mathematics and Physics,Anhui Jianzhu University,Hefei 230601,China;Key Laboratory of Architectural Acoustic Environment of Anhui Higher Education Institutes,Anhui Jianzhu University,Hefei 230601,China;Institute of Acoustics,Anhui Jianzhu University,Hefei 230601,China;Anhui Xinfangzun Automation Technology Co.,Ltd.,Hefei 230000,China)

机构地区：[1]安徽建筑大学数理学院,合肥230601 [2]安徽建筑大学安徽省建筑声环境重点实验室,合肥230601 [3]安徽建筑大学声学研究所,合肥230601 [4]安徽省新方尊自动化科技有限公司,合肥230000

出　　处：《噪声与振动控制》2024年第6期255-260,共6页Noise and Vibration Control

基　　金：国家自然科学基金资助项目(61471003);安徽省高校学科拔尖人才学术资助项目(gxbjZD2021066);安徽省教育厅自然科学基金重点资助项目(KJ2020A0484);产学研合作研究资助项目(HYB20220108)。

摘　　要：泡沫铝材料曲折因子、热特征长度和黏性特征长度等声学参数对其吸声性能有重要影响。针对泡沫铝声学参数难以在实验室完成检测的问题,本文研究采用Johnson-Champoux-Allard多孔介质模型,运用全局最小二乘优化方法完成对泡沫铝材料的声学参数反求,通过与熔体发泡法制备的泡沫铝吸声性能实测值比较,验证所提方法的可行性;通过数值计算,进一步分析泡沫铝流阻率、黏性特征长度、热特征长度、曲折因子和孔隙率等声学参数与其吸声系数的关系。结果表明:增大流阻率、曲折因子和孔隙率均使泡沫铝吸声性能增强;热特征长度和黏性特征长度的改变对吸声系数影响较小;增大孔隙率,泡沫铝的吸声性能提升最为明显。研究成果可为泡沫铝的研发制备和实际工程应用提供借鉴和指导。Acoustic parameters of aluminum foam,such as tortuosity factor,thermal characteristic length and viscous characteristic length,have important effects on its sound absorption ability.To solve the problem that the acoustic parameters of aluminum foam are difficult to be measured in the laboratory,this paper studies the use of Johnson-Champoux-Allard porous medium model and global least squares optimization method to complete the reverse calculation of acoustic parameters of aluminum foams.By mutual comparing of the measured values of sound absorption performance of aluminum foams prepared by melt foaming method,the feasibility of the proposed method was verified.The effects of acoustic parameters such as airflow resistivity,viscous characteristic length,thermal characteristic length,tortuosity factor and porosity on the sound absorption performance of the aluminum foam were further explored through numerical calculations.The results show that the sound absorption performance of the aluminum foam increases with the increase of airflow resistivity,tortuosity factor and porosity;the change of thermal characteristic length and viscous characteristic length has little effect on the sound absorption coefficient;and with the increase of porosity,the sound absorption performance of aluminum foam is most significantly improved.This work has provided a reference and guidance for the development,preparation and practical engineering application of aluminum foams.

关 键 词：声学 泡沫铝 多孔介质模型 声学参数 吸声系数 降噪系数 

分 类 号：TU112.5[建筑科学—建筑理论]