Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs
Fused deposition modeling printing is a material extrusion (MEX) process that has gained popularity over the years due to its increased affordability and greater versatility. There is a wide variety of MEX printing technologies and a broad spectrum of materials that can be 3D printed, ranging from m...
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sg-ntu-dr.10356-1821942025-01-18T16:48:30Z Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs Teng, Phillis Soek Po Tee, Chor Hiong Tan, Hwee Boon Leong, Kah Fai School of Mechanical and Aerospace Engineering National Institute of Education Singapore Centre for 3D Printing Engineering Material extrusion Fused deposition modeling Fused deposition modeling printing is a material extrusion (MEX) process that has gained popularity over the years due to its increased affordability and greater versatility. There is a wide variety of MEX printing technologies and a broad spectrum of materials that can be 3D printed, ranging from metallic to non-metallic materials. MEX has emerged as the most common technology in consumer-grade, desktop 3D printers for printing thermoplastics, such as acrylonitrile butadiene styrene (ABS) and polylactic acid. High-density polyethylene (HDPE) is a widely used thermoplastic material for product packaging. The sheer availability of recyclable or recycled HDPE (rHDPE) from used packaging has led to efforts to apply it in MEX printing. However, rHDPE presents challenges as a filament material, including issues such as part detachment from the print bed and high warpage. The focus of this study is to determine the optimal conditions that can mitigate, if not eliminate, the print bed adhesion problems associated with printing rHDPE filaments. This was achieved by conducting a series of tests to address these challenges, including part removability relating to the shear strength of print bed adhesion to identify the necessary range of print bed adhesion and corresponding parameters. Economic Development Board (EDB) Published version This project was funded with the support of Singapore’s Economic Development Board Innovation Development Scheme (grant number: S11-1191-IDS). 2025-01-14T02:39:06Z 2025-01-14T02:39:06Z 2024 Journal Article Teng, P. S. P., Tee, C. H., Tan, H. B. & Leong, K. F. (2024). Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs. Materials Science in Additive Manufacturing, 3(3), 4084-. https://dx.doi.org/10.36922/msam.4084 2810-9635 https://hdl.handle.net/10356/182194 10.36922/msam.4084 2-s2.0-85205340353 3 3 4084 en S11-1191-IDS Materials Science in Additive Manufacturing © 2024 Author(s). This is an Open-Access article distributed under the terms of the Creative Commons Attribution License, permitting distribution, and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering Material extrusion Fused deposition modeling |
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Engineering Material extrusion Fused deposition modeling Teng, Phillis Soek Po Tee, Chor Hiong Tan, Hwee Boon Leong, Kah Fai Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
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Fused deposition modeling printing is a material extrusion (MEX) process that has gained popularity over the years due to its increased affordability and greater versatility. There is a wide variety of MEX printing technologies and a broad spectrum of materials that can be 3D printed, ranging from metallic to non-metallic materials. MEX has emerged as the most common technology in consumer-grade, desktop 3D printers for printing thermoplastics, such as acrylonitrile butadiene styrene (ABS) and polylactic acid. High-density polyethylene (HDPE) is a widely used thermoplastic material for product packaging. The sheer availability of recyclable or recycled HDPE (rHDPE) from used packaging has led to efforts to apply it in MEX printing. However, rHDPE presents challenges as a filament material, including issues such as part detachment from the print bed and high warpage. The focus of this study is to determine the optimal conditions that can mitigate, if not eliminate, the print bed adhesion problems associated with printing rHDPE filaments. This was achieved by conducting a series of tests to address these challenges, including part removability relating to the shear strength of print bed adhesion to identify the necessary range of print bed adhesion and corresponding parameters. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Teng, Phillis Soek Po Tee, Chor Hiong Tan, Hwee Boon Leong, Kah Fai |
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Article |
| author |
Teng, Phillis Soek Po Tee, Chor Hiong Tan, Hwee Boon Leong, Kah Fai |
| author_sort |
Teng, Phillis Soek Po |
| title |
Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
| title_short |
Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
| title_full |
Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
| title_fullStr |
Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
| title_full_unstemmed |
Material extrusion-based printing optimization of recycled HDPE filaments made from used milk jugs |
| title_sort |
material extrusion-based printing optimization of recycled hdpe filaments made from used milk jugs |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182194 |
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1821833186305376256 |