Litcius/Paper detail

Effect of Almond Shell Waste on Physicochemical Properties of Polyester-Based Biocomposites

Marina Ramos, Franco Dominici, Francesca Luzi, Alfonso Jiménez, Marı́a Carmen Garrigós, Luigi Torre, Débora Puglia

2020Polymers43 citationsDOIOpen Access PDF

Abstract

, were prepared by melt blending in an extruder, followed by injection molding. The effect of fine (125-250 m) and coarse (500-1000 m) milling sizes of ASP was also evaluated. An improvement in elastic modulus was observed with the addition of< both fine and coarse ASP at 25 wt %. The addition of maleinized linseed oil and Joncryl ADR 4400 produced some compatibilizing effect at low filler contents while biocomposites with a higher amount of ASP still presented some gaps at the interface by field emission scanning electron microscopy. Some decrease in thermal stability was shown which was related to the relatively low thermal stability and disintegration of the lignocellulosic filler. The added modifiers provided some enhanced thermal resistance to the final biocomposites. Thermal analysis by differential scanning calorimetry and thermogravimetric analysis suggested the presence of two different polyesters in the polymer matrix, with one of them showing full disintegration after 28 and 90 days for biocomposites containing 25 and 10 wt %, respectively, under composting conditions. The developed biocomposites have been shown to be potential polyester-based matrices for use as compostable materials at high filler contents.

Topics & Concepts

Materials scienceThermogravimetric analysisDifferential scanning calorimetryThermal stabilityPolyesterBiopolymerBiocompositeComposite materialDynamic mechanical analysisLinseed oilPolyurethanePolymerChemical engineeringChemistryOrganic chemistryComposite numberPhysicsEngineeringThermodynamicsNatural Fiber Reinforced Compositesbiodegradable polymer synthesis and propertiesNanocomposite Films for Food Packaging