Abstract
The necessity to alter the material used for producing specific components has arisen in tandem with technological advancements, specifically in the realm of additive manufacturing. The aim is to enhance both the physical and mechanical attributes of these objects. The newly envisaged materials are anticipated to confer increased durability, resilience, and in some cases, elasticity, thus extending the lifespan and bolstering their utility. Furthermore, environmental considerations dictate that these innovative materials should be amenable to recycling. The ultimate objective of this study is to establish a foundational set of optimal parameters for 3D printing with PVA material. This research will unveil the outcomes of material tensile strength in samples produced using the Fused Deposition Modelling (FDM) technique, with variations in layer height. The focal point of this investigation is PVA material, which will subsequently be augmented with particles of biological origin to create a novel polymer with broader applicability and improved mechanical properties, following future tests.
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