Abstract
In the present study, several selected formulations based on recycled (rPP) or virgin polyolefins (vPP) and lignocelluloses were
prepared and subjected to microorganism attack. Biodegradation tests were performed with microbial strains belonging to fungal
genera, like Aspergillus, Penicillium and Fusarium. The initiation of biodegradation was demonstrated by Scanning Electron
Microscope (SEM) micrographs showing the colonization of surface samples by microbial strains. The crystallinity of
composites calculated based on Differential Scanning Calorimetry (DSC) curves evidenced some fluctuations as effect of
biodegradation process. The most significant increase of crystallinity was obtained for v(PP)-wood samples, from 35.4% (sample
without microbial contact) to 58.84% (sample incubated with Fusarium), 47.97 % (sample incubated with Penicillium) and 51.37
% (incubation with Aspergillus), respectively. The microbial activity upon rPP based composites did not induce significantly
changes of crystallinity. Fourier Transform Infrared Analysis (FTIR) showed the increase of the peak corresponding to the
carbonyl group at 1740 cm-1 that indicated the oxidative reactions in the chain in polymer matrix. Also there were observed new
bands at 1647-1651, 1547 cm-1 assigned to protein materials from microorganisms, and at 1046-1450 cm-1 assigned to
polysaccharides. The results showed that the some polymeric composites suffered a slowly biodegradative process, the process
depending on polymer characteristics (structure, complexity, composition) and microorganism ability. From the obtained results,
it can be concluded that Aspergillus strain is active in the biodegradation of tested composites.