Acoustic Impedance of Porous Materials

A thorough understanding of the acoustical properties of porous materials is becoming increasingly important because of the wide variety of unusual and important applications in which they are finding use. A simple and useful theory is presented for predicting the normal acoustic impedance of isotropic porous materials in terms of three previously described simple constants, namely, flow resistance, porosity, and effective dynamic mass of the enclosed gas. The variation of normal impedance with angle of incidence for spaced‐out or rigidly backed samples is treated. A striking possibility is discussed, namely, that gaseous expansions are isothermal over most of the audiofrequency range in materials made of finely divided particles. Many isotropic acoustical materials appear to fall in this class. This means that an air cavity becomes less stiff to dynamic compression when a very porous finely divided material is added to the cavity than when the material is not present. The results are checked against expe...