Magdalena Stepczyńska scite author profile

In this study, natural extracts of plant origin were used as anti-aging compounds of biodegradable polymers. Coffee (0.5–10 wt%), cocoa, or cinnamon extracts were added to the polylactide matrix. The obtained materials were subjected to an accelerated aging process (720, 1440, or 2160 h) at 45 °C and 70% relative humidity under continuous UV radiation. The effectiveness of the tested extracts was compared to a commercially available anti-aging compound, 2 wt% of butylated hydroxytoluene. Visual evaluation, scanning electron microscopy, melt flow rate, thermogravimetry, differential scanning calorimetry, tensile strength, and impact tensile tests were performed. We show that the use of smaller amounts of tested extracts is particularly advantageous, which do not adversely affect the properties of polylactide-based materials at low contents. At the same time, their effectiveness in stabilizing tested properties during the accelerated aging process is mostly comparable to or greater than the reference compound.

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Mechanical properties and biodegradability of flax fiber-reinforced composite of polylactide and polycaprolactone

Rytlewski

Stepczyńska

Moraczewski

et al. 2018

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Magdalena Stepczyńska

Characterisation of multi-extruded poly(lactic acid)

Enzymatic degradation of flax-fibers reinforced polylactide

Stability studies of plasma modification effects of polylactide and polycaprolactone surface layers

The Effect of Accelerated Aging on Polylactide Containing Plant Extracts

Mechanical properties and biodegradability of flax fiber-reinforced composite of polylactide and polycaprolactone

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