Improve the surface roughness of PETG products in FDM 3D printing process with addition of Carbon Fiber

المؤلفون

  • Abraheem Hadeeyah dept. Mechanical Engineering/National Engineering School of Sfax, مؤلف
  • Ibrahim Emhemed dept. physics, Education Faculty/Azzaytuna University, Tarhuna, Libya مؤلف
  • Fouzi Alhader dept. Mechanical Engineering/National Engineering School of Sfax, مؤلف
  • Neila Masmoudi dept Mechanical Engineering/ National Engineering School of Sfax, Tunisia مؤلف
  • Monder Wali dept Mechanical Engineering/ National Engineering School of Sfax, Tunisia مؤلف

DOI:

https://doi.org/10.58916/jhas.v8i3.172

الكلمات المفتاحية:

(3 D printing، materials، surface roughness، PETG، PETG/Carbon-Fiber

الملخص

Abstract:    The aim of this study is to improve the surface properties of PETG material in 3D printer products by adding Carbon-Fiber (CF). Carbon-Fiber is a material that can be added to PETG, PLA, ABS, Nylon and Polycarbonate PC filaments to increase their strength and stiffness. The main contribution of this study is to provide a comprehensive evaluation of the surface roughness of PETG and PETG/carbon-Fiber filaments printed by fused deposition modeling (FDM) technique. The surface roughness is measured using surface roughness PCE-RT20000 tester. By adding 15% weight of Carbon-Fiber to PETG material, the surface roughness value was reduced by 32.7% in the final 3D printed product. This resulted from Carbon-Fiber's capacity to improve the material's flexibility and strength as well as its capacity to close gaps between PETG material threads by enhancing flow and adhesion. The chemical interaction between Carbon-Fiber and PETG contributed to increased flow and adhesion of the material. This interaction plays a role in obtaining good surface properties.

التنزيلات

تنزيل البيانات ليس متاحًا بعد.

المراجع

Abraheem, H, Amir K, Fouzi A, Ibrahim A, Neila K, and Mondher W, The effect of ambient temperature on the quality of three-dimensional printer products in FDM technology for ABS material, First Libyan international Conference on Engineering Sciences & Applications (FLICESA_LA) 13 – 15 March 2023, Tripoli – Libya.

I. Gibson, D. Rosen, B. Stucker, in: Additive Manufacturing Technologies, Additive Manufacturing Technologies: 3D Printing, Rapid Prototyping, and Direct Digital Manufacturing, second ed., 2015, https://doi.org/10.1007/978-1-4939-2113-3.

E. García, P.J. Núñez, M.A. Caminero, J.M. Chacón, S. Kamarthi, Effects of carbon fibre reinforcement on the geometric properties of PETG-based filament using FFF additive manufacturing, Composites Part B: Engineering, Vol 235, 2022,

M. S. Khan, M. A. Qazi, M. A. Khan, M. A. Khan, and M. A. Khan, “Surface Roughness Analysis of 3D Printed Parts: A Review,” Materials Today: Proceedings, vol. 46, pp. 103–108, 2021.

ScienceDirect. (2022). Effects of carbon fiber reinforcement on the geometric properties of 3D printed PETG parts. [online] Available at: https://www.sciencedirect.com/science/article/pii/S1359836822001494.

components: fused deposition modeling”, Vol, 22 • No. 6 • 887–894.

- Yang L, Li S, Li Y et al (2019) Experimental investigations

for optimizing the extrusion parameters on FDM PLA printed

parts. J Mater Eng Perfor

- Hooshmand MJ, Mansour S, Dehghanian A (2021) Optimization

of build orientation in FFF using response surface methodology

and posterior-based method. 27:967-994https:// doi.

org/ 10. 1108/ RPJ- 07- 2020- 0162

Eunseob, K, Yong-Jun S, Sung, H. A. (2016), “The effects of moisture

and temperature on the mechanical properties of additive manufacturing.

التنزيلات

منشور

2023-09-07

إصدار

القسم

Article

كيفية الاقتباس

Abraheem Hadeeyah, Ibrahim Emhemed, Fouzi Alhader, Neila Masmoudi, & Monder Wali. (2023). Improve the surface roughness of PETG products in FDM 3D printing process with addition of Carbon Fiber. مجلة جامعة بني وليد للعلوم الإنسانية والتطبيقية, 8(3), 385-389. https://doi.org/10.58916/jhas.v8i3.172

الأعمال الأكثر قراءة لنفس المؤلف/المؤلفين

<< < 10 11 12 13 14 15 16 17 18 19 > >> 

المؤلفات المشابهة

1-10 من 39

يمكنك أيضاً إبدأ بحثاً متقدماً عن المشابهات لهذا المؤلَّف.