Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control
3D Concrete Printing (3DCP) has been gaining popularity in the past few years. Due to the nature of line-by-line printing and the slump of the material deposition in each extruded line, 3D printed structures exhibit obvious lines or marks at the layer interface, which affects surface finish quality...
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sg-ntu-dr.10356-1482912021-05-08T20:11:26Z Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control Lao, Wenxin Li, Mingyang Wong, Teck Neng Tan, Ming Jen Tjahjowidodo, Tegoeh School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering::Mechanical engineering Additive Manufacturing 3D Concrete Printing 3D Concrete Printing (3DCP) has been gaining popularity in the past few years. Due to the nature of line-by-line printing and the slump of the material deposition in each extruded line, 3D printed structures exhibit obvious lines or marks at the layer interface, which affects surface finish quality and potentially affect bonding strength between layers. This makes it necessary to control the extrudate formation in 3DCP. However, it is difficult to directly analyse the extrudate formation process because the extrudate shape depends on many parameters. In this paper, a machine learning technique is applied to correlate the formation of the extrudate to the printing parameters using an Artificial Neural Network model. The training data for the model development was obtained from extrudates printed in 3DCP experiments. The performance of the trained model was experimentally validated and the predicted extrudate geometry resulting from the developed model showed good agreement to the actual extrudate geometry. Subsequently, the developed model was used to find proper nozzle shapes to produce designated extrudate geometries. Significant improvement on the printing quality was demonstrated using nozzle shapes generated from the model on 3D printed objects consisting a vertical wall, an inclined wall and a curved part. National Research Foundation (NRF) Accepted version 2021-05-05T05:07:28Z 2021-05-05T05:07:28Z 2020 Journal Article Lao, W., Li, M., Wong, T. N., Tan, M. J. & Tjahjowidodo, T. (2020). Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control. Virtual and Physical Prototyping, 15(2), 178-193. https://dx.doi.org/10.1080/17452759.2020.1713580 1745-2767 0000-0003-1507-1509 0000-0002-3029-2521 0000-0002-3583-1723 0000-0003-0074-5101 https://hdl.handle.net/10356/148291 10.1080/17452759.2020.1713580 2-s2.0-85079050530 2 15 178 193 en Virtual and Physical Prototyping This is an Accepted Manuscript of an article published by Taylor & Francis in Virtual and Physical Prototyping on 5 Feb 2020, available online: http://www.tandfonline.com/10.1080/17452759.2020.1713580 application/pdf |
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Engineering::Mechanical engineering Additive Manufacturing 3D Concrete Printing Lao, Wenxin Li, Mingyang Wong, Teck Neng Tan, Ming Jen Tjahjowidodo, Tegoeh Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| description |
3D Concrete Printing (3DCP) has been gaining popularity in the past few years. Due to the nature of line-by-line printing and the slump of the material deposition in each extruded line, 3D printed structures exhibit obvious lines or marks at the layer interface, which affects surface finish quality and potentially affect bonding strength between layers. This makes it necessary to control the extrudate formation in 3DCP. However, it is difficult to directly analyse the extrudate formation process because the extrudate shape depends on many parameters. In this paper, a machine learning technique is applied to correlate the formation of the extrudate to the printing parameters using an Artificial Neural Network model. The training data for the model development was obtained from extrudates printed in 3DCP experiments. The performance of the trained model was experimentally validated and the predicted extrudate geometry resulting from the developed model showed good agreement to the actual extrudate geometry. Subsequently, the developed model was used to find proper nozzle shapes to produce designated extrudate geometries. Significant improvement on the printing quality was demonstrated using nozzle shapes generated from the model on 3D printed objects consisting a vertical wall, an inclined wall and a curved part. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Lao, Wenxin Li, Mingyang Wong, Teck Neng Tan, Ming Jen Tjahjowidodo, Tegoeh |
| format |
Article |
| author |
Lao, Wenxin Li, Mingyang Wong, Teck Neng Tan, Ming Jen Tjahjowidodo, Tegoeh |
| author_sort |
Lao, Wenxin |
| title |
Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| title_short |
Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| title_full |
Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| title_fullStr |
Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| title_full_unstemmed |
Improving surface finish quality in extrusion-based 3D concrete printing using machine learning-based extrudate geometry control |
| title_sort |
improving surface finish quality in extrusion-based 3d concrete printing using machine learning-based extrudate geometry control |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/148291 |
| _version_ |
1699245887230836736 |