In this work, investigations were made for enhancing wear properties of rapid tooling (RT) by reinforcement of fillers (nanoscaled) for grinding applications. The RT has been prepared by using biocompatible composite material (BCCM) feed stock filament (consisting of Nylon 6 as a binder, reinforced with biocompatible nanoscale Al2O3 particles) on fused deposition modeling (FDM) for the development of grinding wheel having customized wear-resistant properties. A comparative study has been conducted under dry sliding conditions in order to understand the tribological characteristics of FDM printed RT of BCCM and commercially used acrylonitrile butadiene styrene (ABS) material. This study also highlights the various wear mechanisms (such as adhesive, fatigue, and abrasive) encountered during experimentation. Finally, the FDM printed RT of proposed BCCM feedstock filament is more suitable for grinding applications especially in clinical dentistry.

Issue Section:
Research Papers
Keywords:
Microstructure, Polymers, Tribological Size Effect
Topics:
Fillers (Materials), Friction, Grinding, Nanoscale phenomena, Nylon fabrics, Rapid tooling, Stress, Wear, Temperature, Particulate matter, Composite materials, Weight (Mass), Tribology, Feedstock, Wear testing, Binders (Materials)

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