Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure
The wire arc additive manufacturing (WAAM) process often begins printing on a substrate. In some cases, the substrate could act as a functional part of the WAAM-fabricated parts. In this work, ER70S-6 is directly deposited onto a 316L substrate using the WAAM process. Microstructural studies reveal...
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sg-ntu-dr.10356-1813132024-11-30T16:48:43Z Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure Zhai, Wengang Aishwarya Shandro, Robert Zhou, Wei School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering Stainless steel Digital image correlation The wire arc additive manufacturing (WAAM) process often begins printing on a substrate. In some cases, the substrate could act as a functional part of the WAAM-fabricated parts. In this work, ER70S-6 is directly deposited onto a 316L substrate using the WAAM process. Microstructural studies reveal good fusion and bonding at the interface. Due to the dilution of ER70S-6 and 316L, a gradient change in composition and microstructure was observed in the first six layers. The first layer (Fe-10Cr-5.5Ni-1Mo-1Mn) and the second layer (Fe-4Cr-2Ni-1Mn-0.5Mo) exhibit a bainite microstructure. Ferritic grains were observed from the third layer onwards. The microhardness is high at 336.9 ± 6.3 HV for the first layer and 302.7 ± 5.7 HV for the second layer. A decrease in microhardness was observed with the increase of the building layer until layer six. The yield strength is 356.6 MPa and the UTS is 502.3 MPa for the 316L/ER70S-6 bimetal joint. The digital image correlation (DIC) method is used to analyse the deformation behaviour. During the tensile test, the 316L substrate side yields first, and then the deformation shifts to the ER70S-6 side. This study also holds the potential for the development of novel alloys. Published version This research is funded by Cetim-Matcor Technology & Services Pte. Ltd. through grant #022185-00001. 2024-11-25T05:28:13Z 2024-11-25T05:28:13Z 2024 Journal Article Zhai, W., Aishwarya, Shandro, R. & Zhou, W. (2024). Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure. Virtual and Physical Prototyping, 19(1), e2375105-. https://dx.doi.org/10.1080/17452759.2024.2375105 1745-2759 https://hdl.handle.net/10356/181313 10.1080/17452759.2024.2375105 2-s2.0-85198556115 1 19 e2375105 en #022185-00001 Virtual and Physical Prototyping © 2024 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. The terms on which this article has been published allow the posting of the Accepted Manuscript in a repository by the author(s) or with their consent. application/pdf |
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Engineering Stainless steel Digital image correlation |
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Engineering Stainless steel Digital image correlation Zhai, Wengang Aishwarya Shandro, Robert Zhou, Wei Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| description |
The wire arc additive manufacturing (WAAM) process often begins printing on a substrate. In some cases, the substrate could act as a functional part of the WAAM-fabricated parts. In this work, ER70S-6 is directly deposited onto a 316L substrate using the WAAM process. Microstructural studies reveal good fusion and bonding at the interface. Due to the dilution of ER70S-6 and 316L, a gradient change in composition and microstructure was observed in the first six layers. The first layer (Fe-10Cr-5.5Ni-1Mo-1Mn) and the second layer (Fe-4Cr-2Ni-1Mn-0.5Mo) exhibit a bainite microstructure. Ferritic grains were observed from the third layer onwards. The microhardness is high at 336.9 ± 6.3 HV for the first layer and 302.7 ± 5.7 HV for the second layer. A decrease in microhardness was observed with the increase of the building layer until layer six. The yield strength is 356.6 MPa and the UTS is 502.3 MPa for the 316L/ER70S-6 bimetal joint. The digital image correlation (DIC) method is used to analyse the deformation behaviour. During the tensile test, the 316L substrate side yields first, and then the deformation shifts to the ER70S-6 side. This study also holds the potential for the development of novel alloys. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhai, Wengang Aishwarya Shandro, Robert Zhou, Wei |
| format |
Article |
| author |
Zhai, Wengang Aishwarya Shandro, Robert Zhou, Wei |
| author_sort |
Zhai, Wengang |
| title |
Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| title_short |
Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| title_full |
Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| title_fullStr |
Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| title_full_unstemmed |
Microstructure and mechanical properties of the wire arc additively manufactured 316L/ER70S-6 bimetal structure |
| title_sort |
microstructure and mechanical properties of the wire arc additively manufactured 316l/er70s-6 bimetal structure |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181313 |
| _version_ |
1819113056989347840 |