In the recent years the composite materials aggrandize attention of researchers since metals have been replaced with these composites. The properties such as high strength to weight ratio, high modulus, excellent resistance to fatigue, creep, corrosion and wear as well as economical. Most of the studies done so for related to composite materials analytical, numerical or experimental focused on the strength evaluation. In the present study the vibro-acoustic analysis of the composite specimen has been carried out, since in case of structural application it plays a significant role. The vibro- acoustic analysis of the fabricated composite specimens is carried out numerically employing different boundary conditions.