Revealing microstructural evolution and mechanical properties of resistance spot welded NiTi-stainless steel with Ni or Nb interlayer
Revealing microstructural evolution and mechanical properties of resistance spot welded NiTi-stainless steel with Ni or Nb interlayer
Dissimilar welding of NiTi and stainless steel (SS) for multifunctional device fabrication is challenging due to the brittle nature of intermetallic compounds (IMCs) that are formed in the weld zone. In this work, Ni and Nb interlayers were applied for the resistance spot welding (RSW) of NiTi and SS to replace the harmful Fe2Ti phase and to restrict the mixing of dissimilar molten metals, respectively. Microstructural evolution and mechanical properties of the joints were investigated. It was shown that a conventional weld nugget was created in the absence of any interlayer in the welded joint suffering from traversed cracks due to the formation of brittle IMCs network in the fusion zone (FZ). By the addition of Ni from the interlayer, Fe2Ti dominated weld nugget was efficaciously replaced by Ni3Ti phase; however, the presence of the large pore and cracks reduced the effective joining area. The use of a Nb interlayer resulted in a fundamentally different joint, in which FZs at NiTi and SS sides separated by the unmolten Nb would suppress the mixing of dissimilar molten metals. Nb-containing eutectic structures with low brittleness formed at the interfaces, contributing to the enhancement of joint strength (increased by 38% on fracture load and 460% on energy absorption). A high-melting-point interlayer showed great potential to realize a reliable and high-performing RSWed NiTi-SS joint.
Intermetallic compounds, Mechanical properties, NiTi, Resistance spot welding, Stainless steel
160-173
Zhang, K.
13fcc31c-564f-4c3f-bab6-ac266c72c4ad
Shamsolhodaei, A.
fb493e2c-1ee0-419b-86c9-3619b89215bd
Ghatei-Kalashami, A.
f961ee59-9cb6-41a1-9ca2-436cea4bfad7
Oliveira, João Pedro
3bdc6ee5-9310-4597-a326-cf2315637834
Zang, C.
b5b6ec47-c741-43c2-a00d-2b0a0c3e6a8f
Schell, N.
88652696-f90a-4976-aeb7-fb9a9070a306
Li, J.
c01989cb-c2a9-41ed-9e23-0618c53a3e85
MIDAWI, ABDELBASET R H
ac0fa320-0b7c-4b58-9839-0ed6827c95ee
Lopes, João G.
27a9a3ef-d51b-4c56-9fd6-0183db8298ac
Yan, J.
575a4f24-5025-4852-824a-9bc0fc40f20d
Pedro, Pedro Eduardo Jose
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Peng, Peng
2009606c-fe43-4841-9f54-c7681d356f24
Zhou, Y.N.
98dad087-8c67-4c93-88e4-dea9b0509072
May 2024
Zhang, K.
13fcc31c-564f-4c3f-bab6-ac266c72c4ad
Shamsolhodaei, A.
fb493e2c-1ee0-419b-86c9-3619b89215bd
Ghatei-Kalashami, A.
f961ee59-9cb6-41a1-9ca2-436cea4bfad7
Oliveira, João Pedro
3bdc6ee5-9310-4597-a326-cf2315637834
Zang, C.
b5b6ec47-c741-43c2-a00d-2b0a0c3e6a8f
Schell, N.
88652696-f90a-4976-aeb7-fb9a9070a306
Li, J.
c01989cb-c2a9-41ed-9e23-0618c53a3e85
MIDAWI, ABDELBASET R H
ac0fa320-0b7c-4b58-9839-0ed6827c95ee
Lopes, João G.
27a9a3ef-d51b-4c56-9fd6-0183db8298ac
Yan, J.
575a4f24-5025-4852-824a-9bc0fc40f20d
Pedro, Pedro Eduardo Jose
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Peng, Peng
2009606c-fe43-4841-9f54-c7681d356f24
Zhou, Y.N.
98dad087-8c67-4c93-88e4-dea9b0509072
Zhang, K., Shamsolhodaei, A., Ghatei-Kalashami, A., Oliveira, João Pedro, Zang, C., Schell, N., Li, J., MIDAWI, ABDELBASET R H, Lopes, João G., Yan, J., Pedro, Pedro Eduardo Jose, Peng, Peng and Zhou, Y.N.
(2024)
Revealing microstructural evolution and mechanical properties of resistance spot welded NiTi-stainless steel with Ni or Nb interlayer.
Journal of Materials Science and Technology, 180, .
(doi:10.1016/j.jmst.2023.05.057).
Abstract
Dissimilar welding of NiTi and stainless steel (SS) for multifunctional device fabrication is challenging due to the brittle nature of intermetallic compounds (IMCs) that are formed in the weld zone. In this work, Ni and Nb interlayers were applied for the resistance spot welding (RSW) of NiTi and SS to replace the harmful Fe2Ti phase and to restrict the mixing of dissimilar molten metals, respectively. Microstructural evolution and mechanical properties of the joints were investigated. It was shown that a conventional weld nugget was created in the absence of any interlayer in the welded joint suffering from traversed cracks due to the formation of brittle IMCs network in the fusion zone (FZ). By the addition of Ni from the interlayer, Fe2Ti dominated weld nugget was efficaciously replaced by Ni3Ti phase; however, the presence of the large pore and cracks reduced the effective joining area. The use of a Nb interlayer resulted in a fundamentally different joint, in which FZs at NiTi and SS sides separated by the unmolten Nb would suppress the mixing of dissimilar molten metals. Nb-containing eutectic structures with low brittleness formed at the interfaces, contributing to the enhancement of joint strength (increased by 38% on fracture load and 460% on energy absorption). A high-melting-point interlayer showed great potential to realize a reliable and high-performing RSWed NiTi-SS joint.
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Accepted/In Press date: 30 May 2023
e-pub ahead of print date: 4 July 2023
Published date: May 2024
Additional Information:
Publisher Copyright:
© 2023
Keywords:
Intermetallic compounds, Mechanical properties, NiTi, Resistance spot welding, Stainless steel
Identifiers
Local EPrints ID: 503079
URI: http://eprints.soton.ac.uk/id/eprint/503079
ISSN: 1005-0302
PURE UUID: 4868b649-0144-48bf-9170-a84401390af7
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Date deposited: 21 Jul 2025 16:43
Last modified: 22 Jul 2025 02:15
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Contributors
Author:
K. Zhang
Author:
A. Shamsolhodaei
Author:
A. Ghatei-Kalashami
Author:
João Pedro Oliveira
Author:
C. Zang
Author:
N. Schell
Author:
J. Li
Author:
ABDELBASET R H MIDAWI
Author:
João G. Lopes
Author:
J. Yan
Author:
Pedro Eduardo Jose Pedro
Author:
Peng Peng
Author:
Y.N. Zhou
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