Extremeroughness reduction andultrafine quality of innovative dual function material extrusion 3D printer
Penulis/Author
Muhammad Ibnu Rashyid (1); Mahendra Jaya (2); Ir. Muhammad Akhsin Muflikhun, S.T., MSME., Ph.D (3)
Tanggal/Date
2024
Kata Kunci/Keyword
Abstrak/Abstract
Purpose– This paper aims to use hybrid manufacturing (HM) to overcome several drawbacks of material extrusion three-dimensional (3D) printers,
such as low dimension ranging from 0.2 to 0.5mm, resulting in a noticeable staircase effect and elevated surface roughness.
Design/methodology/approach– Subtractive manufacturing (SM) through computer numerical control milling is renowned for its precision and
superior surface finish. This study integrates additive manufacturing (AM) and SM into a single material extrusion 3D printer platform, creating a HM
system. Two sets of specimens, one exclusively printed and the other subjected to both printing and milling, were assessed for dimension accuracy
and surface roughness.
Findings– The outcomes were promising, with postmilling accuracy reaching 99.94%. Significant reductions in surface roughness were observed at
90° (93.4% decrease from 15.598 to 1.030mm), 45° (89% decrease from 26.727 to 2.946mm) and the face plane (71% decrease from 12.176 to
3.535mm).
Practical implications– The 3D printer was custom-built based on material extrusion and modified with an additional milling tool on the same
gantry. An economic evaluation based on cost-manufacturing demonstrated that constructing this dual-function 3D printer costs less than US$560
in materials, offering valuable insights for researchers looking to replicate a similar machine.
Originality/value– The modified general 3D printer platform offered an easy way to postprocessing without removing the workpiece from the bed.
This mechanism can reduce the downtime of changing the machine. The proven increased dimension accuracy and reduced surface roughness value
increase the value of 3D-printed specimens
