From Brown Tides to 3D Printers: Additive Manufacturing of Novel Algae-Based Polymer Composites
Fecha
2022-10-13Autor
Figueroa, Zuánichi
Polanco, Abraham
Rodríguez, Jeziel
Toro, Sebastián
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As a direct effect of ocean warming and nutrient enrichment, tones of a brown macroalgae
known as Sargassum, have been accumulating on shores throughout the Caribbean region
since 2011. These unprecedented annual events have been detrimental to marine
ecosystems, human health, and economy of coastal communities.
In the search for new applications of Sargassum biomass, the present work aimed to explore
the use of this seaweed as a raw material for the fabrication of renewable powder that was
incorporated into polylactic acid (PLA) composite filaments to 3D print different
specimens. The mechanical properties of the resulting structures were evaluated via tensile
tests, while studies of biodegradability were performed using burial tests.
The results indicate that it is possible to fabricate filaments with Sargassum powder
contents up to 30 wt%. However, the required extrusion temperatures and the brittleness of
the filaments increase with the Sargassum content. Also, 3D printing of these composite
materials required nozzles with sizes ≥1 mm to avoid clogging.
Regarding the mechanical properties of the specimens, both the elastic modulus and yield
strength exhibit a declining trend as the Sargassum content into the PLA polymer matrix
increase.
As expected, preliminary studies of biodegradability suggest that the composite
degradation increases significantly with the Sargassum content. Samples having 30 wt% of
Sargassum exhibited weight loss % of 25.6, after 60 days of being buried into a compost at
ambient temperature. Additional experiments are required to gain evidence of accelerated
biodegradation at ambient conditions of the PLA conforming the 3D printed structures.