In order to cvaluate the fiber / matrix interfaccs in a fiber reinforced compo site, a mathematical algorithm is prescnted for predicting the scattering cross scction of a cylindrical three-layered medium and the soun...In order to cvaluate the fiber / matrix interfaccs in a fiber reinforced compo site, a mathematical algorithm is prescnted for predicting the scattering cross scction of a cylindrical three-layered medium and the sound attenuation due to scattering in the composite. When the thickness of the fiber / matrix interface layer is small compared to the wavelength, two stiffness constants are used to simulate the boundary condi tions and a simplified method for predicting the sound scattering is developed. Nu mcrical computations have been made for the relations of longitudinal wave attcnuation coefficients in a glass fiber / aluminum composite with the interface properties and wave frequency.展开更多
文摘In order to cvaluate the fiber / matrix interfaccs in a fiber reinforced compo site, a mathematical algorithm is prescnted for predicting the scattering cross scction of a cylindrical three-layered medium and the sound attenuation due to scattering in the composite. When the thickness of the fiber / matrix interface layer is small compared to the wavelength, two stiffness constants are used to simulate the boundary condi tions and a simplified method for predicting the sound scattering is developed. Nu mcrical computations have been made for the relations of longitudinal wave attcnuation coefficients in a glass fiber / aluminum composite with the interface properties and wave frequency.
