In this work we report on the preparation and subsequent mechanical and dynamic-mechanical characterisation of new biodegradable composite materials based on poly (butylene adipate ter-ephthalate) (PBAT) loaded with zein-TiO2 complex microparticles . The masterbatches of the ma-terials were prepared by solvent casting with different filler contents (0 (pure PBAT), 5, 10 and 20 wt%), in order to modify and modulate the properties of the composite. Scanning electron mi-croscopy (SEM) images showed homogeneous dispersion of the filler, without microparticles ag-gregation nor phase separation between filler and matrix, suggesting a good interphase adhesion. Mechanical characterization on dumbbell specimens, obtained by injection moulding, consisted in uniaxial tensile test at constant speed. The Young’s modulus (E) showed an actual improvement of the rigidity with the increase of the filler content. The yield stress (σy) presented a defined in-crease with growing percentage of filler, with opposite behaviour in comparison to the trend gen-erally showed by other composite materials. Dynamic-mechanical analysis results exhibited an in-creasing trend in storage modulus (E’) values, confirming a greater rigidity of the composites with higher filler content. The values of the glass transition temperature (Tg) remained fairly constant, meaning that the thermal stability of the material was not affected by the addition of different amounts of protein complex microparticles. Overall, the produced PBAT composites showed sim-ilar properties to low density polyethylene (LDPE), proving to be promising and more sustainable alternatives to traditional non-biodegradable thermoplastic polymers commonly adopted in food and agricultural fields.
Preparation and characterisation of PBAT-based biocomposite materials reinforced by protein complex microparticles / Togliatti, Elena; Laporta, Cosimo C.; Grimaldi, Maria; Pitirollo, Olimpia; Cavazza, Antonella; Pugliese, Diego; Milanese, Daniel; Sciancalepore, Corrado. - E. Biotechnologies and Functional Biopolymers:(2021). (Intervento presentato al convegno 2nd International Online Conference on Polymer Science - Polymers and Nanotechnology for Industry 4.0 tenutosi a Versione online in diretta nel 1-15 Novembre 2021).
Preparation and characterisation of PBAT-based biocomposite materials reinforced by protein complex microparticles
Diego Pugliese;
2021
Abstract
In this work we report on the preparation and subsequent mechanical and dynamic-mechanical characterisation of new biodegradable composite materials based on poly (butylene adipate ter-ephthalate) (PBAT) loaded with zein-TiO2 complex microparticles . The masterbatches of the ma-terials were prepared by solvent casting with different filler contents (0 (pure PBAT), 5, 10 and 20 wt%), in order to modify and modulate the properties of the composite. Scanning electron mi-croscopy (SEM) images showed homogeneous dispersion of the filler, without microparticles ag-gregation nor phase separation between filler and matrix, suggesting a good interphase adhesion. Mechanical characterization on dumbbell specimens, obtained by injection moulding, consisted in uniaxial tensile test at constant speed. The Young’s modulus (E) showed an actual improvement of the rigidity with the increase of the filler content. The yield stress (σy) presented a defined in-crease with growing percentage of filler, with opposite behaviour in comparison to the trend gen-erally showed by other composite materials. Dynamic-mechanical analysis results exhibited an in-creasing trend in storage modulus (E’) values, confirming a greater rigidity of the composites with higher filler content. The values of the glass transition temperature (Tg) remained fairly constant, meaning that the thermal stability of the material was not affected by the addition of different amounts of protein complex microparticles. Overall, the produced PBAT composites showed sim-ilar properties to low density polyethylene (LDPE), proving to be promising and more sustainable alternatives to traditional non-biodegradable thermoplastic polymers commonly adopted in food and agricultural fields.File | Dimensione | Formato | |
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