Poly(lactic acid) bio-composites containing biochar particles: Effects of fillers and plasticizer on crystallization and thermal properties

Biochar has emerged as a filler material for bio-degradable composites with favorable thermal and mechanical properties. Therefore, biochar is used in poly (lactic acid) (PLA) and PLA/thermoplastic starch (TPS) based composites. The crystallization and thermo-analytical properties of these blends wi...

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Bibliographic Details
Published in:Express polymer letters 2021-04, Vol.15 (4), p.343-360
Main Authors: Haeldermans, T., Samyn, P., Cardinaels, R., Vandamme, D., Vanreppelen, K., Cuypers, A., Schreurs, S.
Format: Article
Language:English
Subjects:
biochar
Biodegradability
Biodegradable materials
Biodegradation
Biopolymers
Crystal growth
Crystallization
Fertilizers
Filler materials
Fillers
Glass transition
Heat resistance
Impact strength
Infrared spectroscopy
Interfacial bonding
Mechanical properties
Nucleation
Particulate composites
Plasticizers
Polylactic acid
polymer composites
Polymer matrix composites
Polymers
Shielding
Spectrum analysis
thermal properties
Thermodynamic properties
Thermogravimetric analysis
thermoplastic starch
Weight loss
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Summary:Biochar has emerged as a filler material for bio-degradable composites with favorable thermal and mechanical properties. Therefore, biochar is used in poly (lactic acid) (PLA) and PLA/thermoplastic starch (TPS) based composites. The crystallization and thermo-analytical properties of these blends with increasing amounts (20 to 50 wt%) of biochar are investigated. In the thermogravimetric analysis, the PLA/char composites' onset degradation temperature and temperature of maximum weight loss decrease with increasing biochar concentrations (320 to 275 °C and 380 to 350 °C, respectively). Contrastingly, in the PLA/TPS/char composites, the impact of the biochar is shielded by the TPS. The unaltered glass transition demonstrates that biochar does not act as a plasticizer in any of the composites, while TPS does. Biochar acts as a nucleation agent, but hinders further crystal growth at high concentrations, as confirmed by isothermal crystallization and infrared spectroscopy. The TPS smoothens the PLA/biochar interface, leading to an obstructed nucleation effect of biochar, proven by differential scanning calorimetry, infrared spectroscopy, and scanning electron microscopy. This work demonstrates the shielding effect TPS has on biochar and can help to understand further and optimize the production and biodegradability of these composites.
ISSN:1788-618X
1788-618X
DOI:10.3144/expresspolymlett.2021.30