Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/129876
Título: Recyclability Assessment of Lignocellulosic Fiber Composites: Reprocessing of Giant Reed/HDPE Composites by Compression Molding
Autores/as: Suárez, Luis 
Ní Mhuirí, Aoife
Millar, Bronagh
McCourt, Mark
Cunningham, Eoin
Ortega Medina, Zaida Cristina 
Clasificación UNESCO: 2304 Química macromolecular
Palabras clave: Lignocellulose
Natural Fiber Composite
Recycling
Compression Modeling
Mechanical-Properties, et al.
Fecha de publicación: 2024
Editor/a: Springer 
Publicación seriada: Advances In Manufacturing Iv, Vol 3, Manufacturing 2024
Resumen: This study verified the possibility of recycling polyethylene-based composites with up to 40% of lignocellulosic reinforcement after 5 cycles of compression molding, milling and extrusion. Two forms of filler from the same plant species, Arundo donax L., were studied, namely, fibers and shredded aerial parts of the plant. The properties of composites were assessed at each processing step, finding that the reprocessing affects to more extend the particulate filler than the fibrous one; the lower particle size resulted in lowered tensile properties. However, despite the fiber size reduction, as aspect ratio is not drastically diminished, the better dispersion of the fibers in the matrix counteracts the negative effects of their shorter size. Impact properties are improved with the recycling, possibly due to the increased homogeneity of the samples, which is also translated into a higher density (and lower porosity). The thermomechanical stability of the fiber composites is higher than for the shredded ones. The reduction in size of the fillers is reflected in the lowered viscosity obtained after the reprocessing. The fibers continue stiffening the matrix after the 5 reprocessing cycles, where the milled material acts more as a filler, reducing tensile properties, although showing a good flexural behavior.
URI: http://hdl.handle.net/10553/129876
ISBN: 978-3-031-56476-5
ISSN: 2195-4356
DOI: 10.1007/978-3-031-56474-1_15
Fuente: Advances In Manufacturing Iv, Vol 3, Manufacturing 2024[ISSN 2195-4356], p. 198-212, (2024)
Colección:Capítulo de libro
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