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Development of Biodegradable Polymer Blends Based on Chitosan and Polylactide and Study of Their Properties

Ivan Lednev, E. V. Salomatina, Svetlana Ilyina, С. Д. Зайцев, Roman S. Kovylin, Л. А. Смирнова

2021Materials16 citationsDOIOpen Access PDF

Abstract

] = 3:1 had the best molecular weight characteristics at a high product yield. Film composition with the weight ratio chitosan-polylactide 50:50 wt. % was characterized by high mechanical properties. The value of the tensile strength of the film was 72 MPa with a deformation of 10% and an elastic modulus of 40 GPa, which is higher than the tensile strength of native chitosan by ~three times. The observed effect is a consequence of the fact that the chitosan-polylactide composite has an amorphous structure in contrast to the native chitosan, which is proved by X-ray phase analysis. An increase in the elastic modulus of the composite in the range of 20-60 °C in contrast to polylactide was found by dynamic mechanical analysis. The observed effect is apparently caused by the formation of hydrogen bonds between functional groups of chitosan and polylactide which is possible through an increase in polylactide segments mobility when its glass transition temperature is reached. The composite material is biocompatible and characterized by high cellular adhesion of fibroblasts (line hTERT BJ-5ta). Their growth on the composite surface was 2.4 times more active than on native chitosan. Bulk porous samples of the composition with the weight ratio chitosan-polylactide 50:50 wt. % were synthesized by original method in ammonium bicarbonate presence. Samples were characterized by a porosity of 82.4% and an average pore size of 100 microns. The biodegradability of such material and absence of inflammatory processes were proven in vivo by the blood parameters of experimental animals. Thus, materials with the weight ratio chitosan-polylactide 50:50 wt. % are promising for potential use in regenerative medicine.

Topics & Concepts

Materials scienceChitosanUltimate tensile strengthComposite numberComposite materialPolymerGlass transitionPolymerizationDynamic mechanical analysisChemical engineeringEngineeringbiodegradable polymer synthesis and propertiesBone Tissue Engineering MaterialsGraphene and Nanomaterials Applications
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