This paper presents a research on ways to reduce waste and to diminish sound pollution by recovery of fir sawdust and recycled
rubber granules and use in making sound absorbing composite materials. Four materials were prepared using raw materials (fir
sawdust and recycled rubber granules) in various percentages, and polyurethane binder. Materials mechanical and acoustic
properties were characterized, proving these materials have useful properties. Materials acoustic performance was compared with
performance of materials existing on the market: glass wool and flexible polyurethane foam. Sound absorption coefficient was
experimentally determined by impedance tube method, in a frequency range of 100-3200 Hz. Results show that composite
materials made from waste are superior to existing materials, with regard to acoustic performance, particularly at frequencies
below 1600 Hz. Sound absorption coefficient measured for material made with sawdust and 30% polyurethane binder reached a
minimum value of 0.65 in the large frequency range of 300-3150 Hz, and a maximum value of 0.979 at the frequency of 2000
Hz.