Influence of a bark-filler on the properties of PLA biocomposites - dataset

Published: 22-02-2021| Version 1 | DOI: 10.17632/8dthprgk7p.1
Piotr Borysiuk,
Piotr Boruszewski,
Radoslaw Auriga,
Leszek Danecki,
Alicja Auriga,
Małgorzata Nowacka,
Katarzyna Rybak


In this study, WPC composites made of PLA and a bark-filler were manufactured. Two degrees of bark comminution (10 – 35 mesh and over 35 mesh) and varied content of bark (40, 50 and 60%) were investigated. The studied panels were compared with analogically manufactured HDPE boards. The manufacture of composites involved two stages: at first, WPC granules with the appropriate formulation were produced using the extruder (temperatures in individual extruder sections were 170°C - 180°C) and crushing at hammer mill after cooling the extruded composite; secondly, the obtained granulate was used to produce boards with nominal dimensions of 300x300x2.5 mm3 by flat pressing in a mold, using a single-shelf press at a temperature 200oC. The study proved that comminuted bark can be applied as a filler in PLA composites. However, an increase in bark content decreased mechanical properties (MOR, MOE) and deteriorated humidity resistance (high TS and WA) of the panels. Along with the increase in bark content, an increase in the contact angle of the composite surfaces and a decrease in the total surface energy were noted. It was also found that PLA composites have higher strength parameters and lower moisture resistance compared to HDPE composites with the same bark content. content.