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Improving the mechanical properties and thermal stability of sodium alginate/hydrolyzed collagen films through the incorporation of SiO2

Luís Marangoni Júnior, Plínio Ribeiro Rodrigues, Renan Garcia da Silva, Roniérik Pioli Vieira, Rosa Maria Vercelino Alves

2021Current Research in Food Science56 citationsDOIOpen Access PDF

Abstract

Biopolymer-based films have become leading alternatives to traditional fossil-based packaging plastics. Among the countless types of biopolymers with potential for such applications, films containing hydrolyzed collagen in their composition were scarcely explored. This study determined the effect of different loads of nano-SiO2 (0, 2, 6, 8 and 10% w/w of sodium alginate) in the sodium alginate (SA) and hydrolyzed collagen (HC) blend films in terms of structure, thickness, mechanical properties, and thermal stability. The results indicated an improvement in the general mechanical and thermal behavior. Tensile strength increased from 18.2 MPa (control sample) to 25.4 MPa for the SA/HC film incorporated with 10% nano-SiO2. In the same condition, the film's elongation at break improved impressively (from 19.5 to 35.8%). Thermal stability improved slightly for all proportions of nano-SiO2. Therefore, the addition of nano-SiO2 can be an easy and simple strategy to improve crucial properties of SA/HC blend films, increasing its performance for future application as sustainable packaging.

Topics & Concepts

BiopolymerUltimate tensile strengthThermal stabilityMaterials scienceHydrolysisSodium alginateElongationChemical engineeringComposite materialNano-Control sampleSodiumChemistryPolymerOrganic chemistryFood scienceMetallurgyEngineeringCollagen: Extraction and CharacterizationNanocomposite Films for Food PackagingSilk-based biomaterials and applications
Improving the mechanical properties and thermal stability of sodium alginate/hydrolyzed collagen films through the incorporation of SiO2 | Litcius