Metal additive manufacturing of plastic injection molds with conformal cooling channels
Conformal cooling channels (CCCs) are widely used in the plastic injection molding process to improve the product quality and operational performance. Tooling that incorporates CCCs can be fabricated through metal additive manufacturing (MAM). The present work focuses on the MAM of a plastic injecti...
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sg-ntu-dr.10356-1606022022-07-30T20:12:08Z Metal additive manufacturing of plastic injection molds with conformal cooling channels Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering::Mechanical engineering Metal Additive Manufacturing 3D Printing Conformal cooling channels (CCCs) are widely used in the plastic injection molding process to improve the product quality and operational performance. Tooling that incorporates CCCs can be fabricated through metal additive manufacturing (MAM). The present work focuses on the MAM of a plastic injection mold insert with different CCC types that are circular, serpentine, and tapered channels with/without body-centered cubic (BCC) lattices. The entire manufacturing process of the mold insert is explained from the design step to the final printing step including the computational thermal & mechanical simulations, performance assessments, and multiobjective optimization. Compared to the traditional channels, conformal cooling channels achieved up to 62.9% better cooling performance with a better thermal uniformity on the mold surface. The optimum mold geometry is decided using the multiobjective optimization procedure according to the multiple objectives of cooling time, temperature non-uniformity, and pressure drop in the channel. Direct Metal Laser Sintering (DMLS) method is used for manufacturing the molds and the quality of the printed molds are analyzed with the X-ray Computed Tomography (X-ray CT) technique. The errors between the design and the printed parameters are less than 5% for the circular and tapered channels while the maximum deviation of the strut diameters of the BCC is 0.06 mm. Nanyang Technological University Published version This research was jointly funded by the Singapore Centre for 3D Printing and TE Connectivity Singapore. 2022-07-27T07:17:46Z 2022-07-27T07:17:46Z 2022 Journal Article Kanbur, B. B., Zhou, Y., Shen, S., Wong, K. H., Chen, C., Shocket, A. & Duan, F. (2022). Metal additive manufacturing of plastic injection molds with conformal cooling channels. Polymers, 14(3), 424-. https://dx.doi.org/10.3390/polym14030424 2073-4360 https://hdl.handle.net/10356/160602 10.3390/polym14030424 35160414 2-s2.0-85123432602 3 14 424 en Polymers © 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Mechanical engineering Metal Additive Manufacturing 3D Printing Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| description |
Conformal cooling channels (CCCs) are widely used in the plastic injection molding process to improve the product quality and operational performance. Tooling that incorporates CCCs can be fabricated through metal additive manufacturing (MAM). The present work focuses on the MAM of a plastic injection mold insert with different CCC types that are circular, serpentine, and tapered channels with/without body-centered cubic (BCC) lattices. The entire manufacturing process of the mold insert is explained from the design step to the final printing step including the computational thermal & mechanical simulations, performance assessments, and multiobjective optimization. Compared to the traditional channels, conformal cooling channels achieved up to 62.9% better cooling performance with a better thermal uniformity on the mold surface. The optimum mold geometry is decided using the multiobjective optimization procedure according to the multiple objectives of cooling time, temperature non-uniformity, and pressure drop in the channel. Direct Metal Laser Sintering (DMLS) method is used for manufacturing the molds and the quality of the printed molds are analyzed with the X-ray Computed Tomography (X-ray CT) technique. The errors between the design and the printed parameters are less than 5% for the circular and tapered channels while the maximum deviation of the strut diameters of the BCC is 0.06 mm. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei |
| format |
Article |
| author |
Kanbur, Baris Burak Zhou, Yi Shen, Suping Wong, Kim Hai Chen, Charles Shocket, Abe Duan, Fei |
| author_sort |
Kanbur, Baris Burak |
| title |
Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| title_short |
Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| title_full |
Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| title_fullStr |
Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| title_full_unstemmed |
Metal additive manufacturing of plastic injection molds with conformal cooling channels |
| title_sort |
metal additive manufacturing of plastic injection molds with conformal cooling channels |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160602 |
| _version_ |
1739837378547154944 |