Developments in the Built Environment (Apr 2025)
Hygro-Thermal and Acoustic performances of recycled textile-based materials for building applications
Abstract
This study presents an experimental investigation of the heat transfer and acoustic properties of semi-finished panels obtained from post-consumer textile waste. Their different compositions (mostly polyester, mostly cotton, and mixed fabric) and different densities, in a range from 50 to 150 kg/m3, were considered. The transient “hot disk” method was used for thermal conductivity and diffusivity measurements and a Kundt's tube for sound absorption. Moreover, hygroscopic characterizations of moisture absorption and its kinetics were carried out. Overall, good thermal insulation (thermal conductivity between 0.042 and 0.062 W/K/m) and medium acoustic performances (sound absorption classes C and D) were observed, suitable for building applications. Thermal conductivity was found to linearly increase with the density and to increase with the relative humidity, in line with the analysed hygroscopic behaviour of the porous matrix. On average, the polyester-based panels showed the lowest thermal conductivity, followed by the mixed fabric.
