Pengaruh Nozzle Temperature, Infill Geometry, Layer Height dan Fan Speed Terhadap Kekasaran Permukaan Filamen PETG

Abstract

3D printing is a process of making three-dimensional solid objects from a digital file process created by laying down successive layers of material until the object is created. Many filaments can be used in 3D printing, one of which is PETG. PETG (Polyethylene terephthalate glycol) is a modification of PET with added glycol at a molecular level to offer different chemical properties that provide significant chemical resistance, durability, and excellent formability for manufacturing. This study aims to find the most optimal parameter of surface roughness of PETG with different parameters of nozzle temperature, infill geometry, layer height and fan speed. Taguchi L16 (4^4) with four levels for each parameter was used to determine the effect of each parameter. Each experiment was repeated five times to minimize the occurrence of errors. Based on the result, the effect of each parameter is nozzle temperature 4.9%, infill geometry 5.9%, layer height 82.3%, and fan speed 4.6%. Layer height has the highest effect on surface roughness, and other parameters have a low effect, under 7%. Research shows that the optimal combination of parameters is nozzle temperature of 220 °C, infill geometry zig-zag, layer height of 0.12 mm, and fan speed of 80 %.