Towards binder jetting and sintering of AZ91 magnesium powder
The inherent properties of magnesium (Mg) make it one of the most challenging metals to process with additive manufacturing (AM), especially with fusion-based techniques. Binder jetting is a two-step AM method in which green Mg objects print near room temperature, then the as-printed green object si...
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sg-ntu-dr.10356-1694782023-07-22T16:48:18Z Towards binder jetting and sintering of AZ91 magnesium powder Salehi, Mojtaba Kuah, Kai Xiang Ho, Jia Hern Zhang, Su Xia Seet, Hang Li Nai, Sharon Mui Ling School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Magnesium Binder Jetting The inherent properties of magnesium (Mg) make it one of the most challenging metals to process with additive manufacturing (AM), especially with fusion-based techniques. Binder jetting is a two-step AM method in which green Mg objects print near room temperature, then the as-printed green object sinters at a high temperature. Thus far, a limited number of studies have been reported on the binder jetting of Mg powder. This study aimed to push the knowledge base of binder jetting and sintering for AZ91D powder. To this end, the principle of capillary-mediated binderless printing was used to determine the ink saturation level (SL) required for the binder jetting of a green AZ91 object. The effects of various SLs on forming interparticle bridges between AZ91 powder particles and the dimensional accuracy of the resultant as-printed objects were investigated. Green AZ91 objects sintered at different temperatures ranging from 530 °C to 575 °C showed a marginal increment in density with an increase in sintering temperature (i.e., 1.5% to 5.1%). The root cause of such a low sintering densification rate in the presence of up to 54.5 vol. % liquid phase was discussed in the context of the powder packing density of as-printed objects and swelling occurring at sintering temperatures ≥ 45 °C. Overall, this work demonstrates the great potential of binderless printing for AM of Mg powder and the need for pushing sintering boundaries for further densification of as-printed Mg components. Published version This research was funded by the first Singapore–Germany academic–industry (2 + 2) international collaboration grant (Grant no. A1890b0050). 2023-07-20T01:54:34Z 2023-07-20T01:54:34Z 2023 Journal Article Salehi, M., Kuah, K. X., Ho, J. H., Zhang, S. X., Seet, H. L. & Nai, S. M. L. (2023). Towards binder jetting and sintering of AZ91 magnesium powder. Crystals, 13(2), 286-. https://dx.doi.org/10.3390/cryst13020286 2073-4352 https://hdl.handle.net/10356/169478 10.3390/cryst13020286 2-s2.0-85149251810 2 13 286 en A1890b0050 Crystals © 2023 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 Magnesium Binder Jetting |
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Engineering::Mechanical engineering Magnesium Binder Jetting Salehi, Mojtaba Kuah, Kai Xiang Ho, Jia Hern Zhang, Su Xia Seet, Hang Li Nai, Sharon Mui Ling Towards binder jetting and sintering of AZ91 magnesium powder |
| description |
The inherent properties of magnesium (Mg) make it one of the most challenging metals to process with additive manufacturing (AM), especially with fusion-based techniques. Binder jetting is a two-step AM method in which green Mg objects print near room temperature, then the as-printed green object sinters at a high temperature. Thus far, a limited number of studies have been reported on the binder jetting of Mg powder. This study aimed to push the knowledge base of binder jetting and sintering for AZ91D powder. To this end, the principle of capillary-mediated binderless printing was used to determine the ink saturation level (SL) required for the binder jetting of a green AZ91 object. The effects of various SLs on forming interparticle bridges between AZ91 powder particles and the dimensional accuracy of the resultant as-printed objects were investigated. Green AZ91 objects sintered at different temperatures ranging from 530 °C to 575 °C showed a marginal increment in density with an increase in sintering temperature (i.e., 1.5% to 5.1%). The root cause of such a low sintering densification rate in the presence of up to 54.5 vol. % liquid phase was discussed in the context of the powder packing density of as-printed objects and swelling occurring at sintering temperatures ≥ 45 °C. Overall, this work demonstrates the great potential of binderless printing for AM of Mg powder and the need for pushing sintering boundaries for further densification of as-printed Mg components. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Salehi, Mojtaba Kuah, Kai Xiang Ho, Jia Hern Zhang, Su Xia Seet, Hang Li Nai, Sharon Mui Ling |
| format |
Article |
| author |
Salehi, Mojtaba Kuah, Kai Xiang Ho, Jia Hern Zhang, Su Xia Seet, Hang Li Nai, Sharon Mui Ling |
| author_sort |
Salehi, Mojtaba |
| title |
Towards binder jetting and sintering of AZ91 magnesium powder |
| title_short |
Towards binder jetting and sintering of AZ91 magnesium powder |
| title_full |
Towards binder jetting and sintering of AZ91 magnesium powder |
| title_fullStr |
Towards binder jetting and sintering of AZ91 magnesium powder |
| title_full_unstemmed |
Towards binder jetting and sintering of AZ91 magnesium powder |
| title_sort |
towards binder jetting and sintering of az91 magnesium powder |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169478 |
| _version_ |
1773551367967735808 |