Abstract
This study investigates the mechanical and tribological performance of seven different PLA-based composite formulations reinforced with nanoalumina, nanosilica, and nanozirconia at weight fractions of 0, 3, and 6%. A multi-criteria decision-making approach, namely the Preference Selection Index (PSI) method, was employed to evaluate and compare the relative effectiveness of the reinforcements and to identify the optimum nano-filler. The evaluated performance attributes included physical properties (void content and water absorption), mechanical properties (hardness, compressive strength, and flexural strength), and wear behavior. The results indicate that the incorporation of 3 wt.-% nanoalumina led to increases of 18%, 29%, 9%, 3.3%, 3.6%, and 11.7% in void content, water absorption, hardness, compressive strength, flexural strength, and impact strength respectively. Similarly, the addition of 3 wt.-% nanosilica resulted in increases of 43%, 5.8%, 27%, 5%, 5.4% and 23%, while 3 wt.-% nanozirconia enhanced these properties by 7.8%, 14%, 13%, 8.3%, 7.2%, and 41%, respectively. Based on the PSI optimization considering all evaluated attributes, nanozirconia was identified as the most effective reinforcement, followed by nanoalumina and nanosilica.
Get full access to this article
View all access options for this article.
