Affiliation:
1. Department of Engineering and Architecture University of Trieste Via Valerio 10 Trieste 34127 Italy
2. Research & Innovation Department MaterialScan Srl. Via Capodistria 28 Trieste I‐34145 Italy
Abstract
AbstractThis study examines a lightweight thermal and acoustic insulation material, produced starting from a hydrogel‐based mixture composed by renewable biopolymer and fiberglass waste powders. The gel 3D porous network is preserved after water removal by sublimation, resulting in a lightweight thermal and acoustic insulation material with good overall performance. Mechanical, thermal, and acoustic properties can be tuned as a function of biopolymer and additives concentration. This material addresses environmental concerns both in terms of secondary raw sources use and fiberglass waste disposal. Moreover, contrary to mineral wools currently on the market, it can overcome the problem of fiber release, with significant human health benefits. Thanks to its good properties and its fabrication process based on a circular economy approach, it can be appealing for thermal and acoustic insulating applications in building and industrial sectors and also in terms of environmental footprint.
Funder
Regione Autonoma Friuli Venezia Giulia
Subject
Industrial and Manufacturing Engineering,Mechanics of Materials,General Materials Science
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