Affiliation:
1. Universiti Teknikal Malaysia Melaka, Malaysia
Abstract
Fused filament fabrication (FFF) has been developed in additive manufacturing technology as a fast and simple manufacturing process in product design. Advantage of the process such as flexibility in terms of the materials employment has attracted many researchers to develop new materials for the feed stock filament in the heat extrusion process of FFF. Green materials or bio-composites materials have been found in FFF and successfully commercialized in the market. However, a deep research should have been performed prior the application because of the unique characteristics of the material itself. The challenge for the researchers to develop bio-composite materials as the filament in FFF technology is to determine the right composition of the composites with the right thermal, mechanical, and rheological properties. Therefore, in this study, a review has been conducted to highlight the important requirements of the process and materials. Green materials such as bio-composites have a great potential in the FFF technology and could improve the sustainability impact.
Reference59 articles.
1. Additively. (2017). Fused deposition modeling. Author.
2. Afrose, M. F., Masood, S. H., Iovenitti, P., Nikzad, M., & Sbarski, I. (2016). Effects of part build orientations on fatigue behaviour of FDM-processed PLA material. Progress in Additive Manufacturing, 1(1–2), 21–28. doi:10.1007/s40964-015-0002-3
3. The Influence of Rheology on Melt Processing Conditions of Amorphous Thermoplastics for Big Area Additive Manufacturing (BAAM).;C.Ajinjeru;Solid Freeform Fabrication,2016
4. Mechanical and rheological characterization of PA6 and ABS blends-with and without short glass fibre.;A.Arsad;Journal of Applied Sciences (Faisalabad),2011
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