Preparation and Biodegradation of Starch/Polycaprolactone Films

Starch granules were modified with trisodium trimetaphosphate (TSTP) and characterized by P super(31)-NMR, FTIR and DSC. Seventy-micron films were prepared from modified starch and polycaprolactone blends by solvent casting technique. Three different types of films--PCL (100% polycaprolactone), MOD-...

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Bibliographic Details
Published in:Journal of polymers and the environment 2003-07, Vol.11 (3), p.107-113
Main Authors: Yavuz, Hülya, Babaç, Ceyhun
Format: Article
Language:English
Subjects:
Activated sludge
Bacteria
Biodegradation
Composts
Elongation
Granules
Mechanical properties
Microbiology
polycaprolactone
Polymers
Pseudomonas putida
Solvents
Starch
Tensile strength
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Summary:Starch granules were modified with trisodium trimetaphosphate (TSTP) and characterized by P super(31)-NMR, FTIR and DSC. Seventy-micron films were prepared from modified starch and polycaprolactone blends by solvent casting technique. Three different types of films--PCL (100% polycaprolactone), MOD-ST/PCL (50% modified starch and 50% polycaprolactone blend) and NONMOD-ST/PCL (50% nonmodified starch and 50% polycaprolactone blends)--were prepared, and their thermal, mechanical, and morphologic properties were investigated to show the increased performance of PCL with the addition of starch and also the effect of modification. It was observed that with the addition of starch the Young's modulus of polycaprolactone was increased and became less ductile, whereas tensile strength and elongation at break values decreased. Biodegradation of these films was inspected under different aerobic environments with the presence of Pseudomonas putida, activated sludge, and compost. It was observed that whereas P. putida had almost no effect on degradation during 90 days, with the presence of activated sludge, considerable deformation of films was observed even in the first 7 days of degradation. In a compost environment, degradation was even faster, and all polymer films were broken into pieces within first 7 days of degradation and no film remained after 15 days.
ISSN:1566-2543
1572-8919
1572-8900
DOI:10.1023/A:1024635130991