Abstract
This article deals with a comprehensive study of the processing and mechanical properties of the ceramic material AlO on Fused Filament Fabrication technology (FFF). It describes the basic input analyses of the material, such as TGA, FTIR, and MVR. These analyses enabled the design and testing of process parameters for the 3D printing of parts. The article also presents the post-processes, including the technological parameters required to finalize parts made from this material, i.e., chemical debinding in acetone at elevated temperatures + thermal debinding and sintering. The microhardness was measured on the processed samples, depending on the density of the inner filling. The resulting hardness had an almost linear relationship between the percentage of filler (20–40–60–80–100%) and the resulting microhardness (1382–2428 HV10). Flexural strength was also measured on the test specimens with different degrees of internal filling (80–90–100%). However, inner filling do not affect the flexural strength (316.12–327.84–331.61 MPa). The relative density of the final parts was measured on a ZEISS METROTOM 1500 CT machine and reached 99.54%.
Highlights
Academic Editors: Alberto Sanz de Additive manufacturing (AM), known as Three-Dimensional Printing (3D printing), is an innovative approach to the production of parts with complex geometry and internal structures
The largest porosity was in the area of perimeters
This study demonstrated the fabrication of alumina material by Fused Filament Fabrication (FFF) technology
Summary
Academic Editors: Alberto Sanz de Additive manufacturing (AM), known as Three-Dimensional Printing (3D printing), is an innovative approach to the production of parts with complex geometry and internal structures. This innovative technology was invented and patented in 1984 by Charles Hull in a process known as stereolithography (SLA), the first commercial rapid prototyping technology from 3D Systems [1,2]. SLA technology was followed by subsequent developments such as Fused Deposition Modeling (FDM), Solid Ground Curing (SGC) from Cubital, and Laminated Object Manufacturing (LOM) from Helisys in 1991. Fused Filament Fabrication (FFF), commercially known as FDM technology (trademarked by Stratasys, Ltd., Eden Prairie, MN, USA), usually uses thermoplastics.
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