Novel Research on Selected Mechanical and Environmental Properties of the Polyurethane-Based P3HB Nanobiocomposites
Iwona Zarzyka, Beata Krzykowska, Karol Hęclik, Wiesław Frącz, Grzegorz Janowski, Łukasz Bąk, Tomasz Klepka, Jarosław Bieniaś, Monika Ostapiuk, Aneta Tor-Świątek, Magda Droździel-Jurkiewicz, Joanna Paciorek-Sadowska, Marcin Borowicz, Adam Tomczyk, Anna Falkowska, Michał Kuciej

TL;DR
This study examines how adding polyurethane and clay to P3HB affects the material's mechanical, thermal, and biodegradability properties.
Contribution
The study introduces a novel approach to modifying P3HB with PU and montmorillonite to balance mechanical performance and biodegradability.
Findings
Adding PU and clay reduced stiffness and increased ductility in P3HB composites.
Clay content of 1% by mass improved thermal stability and impact strength.
Higher clay content decreased biodegradability but increased thermal decomposition temperature.
Abstract
This study focused on hybrid nanobiocomposite polymers produced with the use of poly(3-hydroxybutyrate), P3HB and aliphatic polyurethane (PU) as a matrix, including variable quantities of organomodified montmorillonite (Cloisite®30B). Mechanical, thermal, and biodegradability tests were conducted to evaluate their properties. The nanobiocomposites were tested using monotonic tensile tests, which revealed that the addition of PU and organomodified montmorillonite reduced the stiffness and strain at break compared to native P3HB. The material’s yield strength was higher for P3HB, while the PU-modified composites exhibited lower stiffness and increased ductility, especially with lower amounts of clay. Scanning electron microscopy (SEM) images showed that cracks in the samples propagated more rapidly as the clay content increased. The bending test showed that the P3HB–PU composites and the…
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Taxonomy
Topicsbiodegradable polymer synthesis and properties · Polymer composites and self-healing · Polymer Nanocomposites and Properties
