Optimization parameter effects on the quality surface finish of the three-dimensional printing (3D printing) Fused Deposition Modelling (FDM) process
Abstract
Fused deposition modelling (FDM) is a process for developing rapid prototype (RP) objects
according to numerically defined cross sectional geometry by depositing fused layers of
material. This RP may used straight to the application. Therefore, this research has been
done to optimize the best parameter towards better roughness on the surface. Plus, this
research is to explore the influence of layer height, outline speed and extruder temperature
with the surface roughness. An specimen has been proposed to fulfill the objective of the
research. In order to build the specimen, it has been drawn by CAD. The, it was transfer to
Standard Triangulation Language, (STL) file. The STL will read and the FDM will deposits
the material from the bottom curve and build up the model to the top curve. In order to
reduce experimental runs, Taguchi Method based on central composite design is adopted.
L9 was used to run the specimen. Thus there is nine experiment that will run. Specimens
are prepare to improve surface roughness of the 3D printing. The specimen was measured
by Mitutoyo CS3000 525-780EI. Relations among responses and process parameters are
determined and their validity is proved using analysis of variance (ANOVA). Response
surface are analyzed to establish main factor effects and their interaction on responses. The
specimen are proposed in flat and curve surface. For the result, it is stated that layer height
was the main parameter that effects of the surface roughness, compare to the outline speed
and extruder temperature.