Authors :
Mikaelsean Hendito; Agus Halim; Erwin Siahan
Volume/Issue :
Volume 8 - 2023, Issue 6 - June
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://tinyurl.com/wvt8acvn
DOI :
https://doi.org/10.5281/zenodo.8167174
Abstract :
Fused deposition modeling (FDM) and
continuous fiber fabrication (CFF) are methods of 3D
printing technology. The Markforged Mark Two 3D
printer is a 3D printer that utilizes both methods. In this
study, the material used is a polymer matrix composite
material, namely Onyx-Carbon Fiber Reinforced. The
use of this material as a gripper, soft jaw, thread, jix and
fixture, and bracket. However, the use of this material is
still not optimal or overwhelming, because there is no
physical characterization of this material. Therefore, this
study is to obtain a characterization of Oyx-Carbon Fiber
Reinforced material, especially tensile strength which will
then be analyzed using the Taguchi Method.This
research uses experimental method by varying several
parameters.
Keywords :
FDM, CFF, 3D Printing Technology, Onyx- Carbon Fiber Reinforced, Taguchi Metho.
Fused deposition modeling (FDM) and
continuous fiber fabrication (CFF) are methods of 3D
printing technology. The Markforged Mark Two 3D
printer is a 3D printer that utilizes both methods. In this
study, the material used is a polymer matrix composite
material, namely Onyx-Carbon Fiber Reinforced. The
use of this material as a gripper, soft jaw, thread, jix and
fixture, and bracket. However, the use of this material is
still not optimal or overwhelming, because there is no
physical characterization of this material. Therefore, this
study is to obtain a characterization of Oyx-Carbon Fiber
Reinforced material, especially tensile strength which will
then be analyzed using the Taguchi Method.This
research uses experimental method by varying several
parameters.
Keywords :
FDM, CFF, 3D Printing Technology, Onyx- Carbon Fiber Reinforced, Taguchi Metho.
