摘要
对具有不同参数的单层电解多孔铁镍薄板结构及双层复合结构的吸声特性进行了试验和分析.将电解多孔铁镍薄板理想化为超细微孔结构,采用平均孔距和平均孔径利用微穿孔理论计算了电解多孔铁镍薄板结构的吸声性能,并与实测值进行了比较.结果表明,单层空腔电解多孔铁镍薄板结构具有很强的共振吸声特性和良好的吸声性能,吸声系数大于0.6的频带超过2个倍频程.双层复合结构可明显拓宽吸声频带,进一步提高吸声性能.对于单层电解多孔铁镍薄板结构,采用平均孔径和平均孔距根据微穿孔理论获得的吸声系数计算值与实测值吻合得良好;对于双层复合结构,吸声系数计算值与实测值的频率特性相近,最大值接近,但存在一定的频率偏移.
Acoustic absorption of single-layer porous electrolytic iron-nickel panels with different parameters was measured and analyzed, as well as double-layer porous electrolytic iron-nickel panels. Porous electrolytic iron-nickel panel was idealized as micro-perforated panel with ultra-minute perforation to calculate sound absorption applying statistical average hole diameter and hole space by Maah's theory. Porous electrolytic iron-nickel panel with back cavity exhibited resonant absorption character and performed good sound absorption. For single-layer porous electrolytic iron-nickel panel with cavity, calculations by Maah's theory were in concord with measurement results. For double-layer structure, calculation presented frequency character of absorption and maximum absorption coefficient similar to measurements, but there existed frequency shift of maximum absorption between calculation and measurement results.
出处
《材料研究学报》
EI
CAS
CSCD
北大核心
2009年第1期32-38,共7页
Chinese Journal of Materials Research
关键词
材料科学基础学科
吸声
多孔金属
微穿孔
吸声材料
foundational discipline in materials science, sound absorption, metallic foam, microperforation, absorptive material
