Implementation Of Corexy Mechanism on Large Format 3D Printer to Optimize Print Time Effectiveness Dirvi Eko Juliando Sudirman, Rendi Pambudi Wicaksono, Andhika Putra Widyadharma
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Abstract
In the past few decades, 3D Printer technology has seen significant advancements, changing the paradigm of manufacturing processes and creativity. One of the biggest challenges that the 3D Printer world continues to face is the size of prints that can be produced. Larger print sizes allow objects to be printed without dividing them into smaller components, thus improving production efficiency and the quality of the final object. The coreXY drive mechanism is applied to the large format 3D printer made in this research, due to the fact that it can produce faster movements than the typical cartesian. The two motors used to move in the horizontal plane are stationary and do not have to move on their own, resulting in less moving mass. It is possible to print at high speed while maintaining the quality of the prints. A Comparison of the printing speed and quality of this machine with 3D printers available in the market, resulting in a higher printing speed of 75% with equivalent printing quality. Printing tests on each side of the print area that has a size of 50cm x 50cm show good results with the same quality, which proves that the large format 3D printer machine that has been made can work well.
Keywords: 3D Printer, CoreXY, Printing Speed, Printing Quality
