Jacqueline Stagner scite author profile

In this work, we studied the effect of the percentage of maleated thermoplastic starch (MTPS) in MTPS-poly(butylene adipate-co-terephthalate) (PBAT) blends that were used to produce extruded films. The materials were characterized by their mechanical properties (tensile and puncture tests), their barrier properties (carbon dioxide, oxygen, and water-vapor permeability tests), and microstructural analysis [transmission electron microscopy (TEM)], and the biobased content of the materials was determined. The results of the testing show that increasing the MTPS content decreased the tensile strength (from 19.7 to 8.6 MPa in the machine direction and from 15.3 to 7.1 MPa in the transverse direction) and puncture force (from 42.5 to 30.3 N) of the films; however, the elongation was not significantly affected. The permeability of the films to oxygen and carbon dioxide decreased with increasing MTPS content. The oxygen permeability decreased from 1.68 Â 10 À17 to 6.0 Â 10 À18 kg m m À2 s À1 Pa À1 , whereas the carbon dioxide permeability decreased from 3.0 Â 10 À16 to 1.1 Â 10 À16 kg m m À2 s À1 Pa À1 . However, the permeability to water vapor increased from 5.0 Â 10 À15 to 1.04 Â 10 À14 kg m m À2 s À1 Pa À1 . Finally, TEM showed that PBAT was the continuous phase and MTPS was the dispersed phase. As the amount of MTPS in the samples increased, the dispersed phase became finer and more regularly spaced. V C 2012 Wiley Periodicals, Inc. J Appl Polym Sci 126: E135-E142, 2012

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Adaptable wind/solar powered hybrid system for household wastewater treatment

Soni

Stagner

Ting

2017

Sustainable Energy Technologies and Assessments

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Methane generation from anaerobic digestion of biodegradable plastics – a review

Stagner

2015

International Journal of Environmental Studies

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Thermoplasticization of High Amylose Starch by Chemical Modification Using Reactive Extrusion

et al. 2011

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