Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel
Brazing is an effective technique for joining tungsten and steel. However, the high residual stresses are produced due to the different coefficients of thermal expansions between tungsten and steel. Compared with the direct brazing with BNi-2 foil filler, BNi-2/Cu/ BNi-2 multiple interlayer was used...
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sg-ntu-dr.10356-1444482023-03-04T17:11:37Z Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel Wang, Meng Chen, Yuanting Li, Xianfen Hua, Peng Gao, Linfeng Zhou, Wei Wu, Yucheng School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering 316L Steel Brazing Brazing is an effective technique for joining tungsten and steel. However, the high residual stresses are produced due to the different coefficients of thermal expansions between tungsten and steel. Compared with the direct brazing with BNi-2 foil filler, BNi-2/Cu/ BNi-2 multiple interlayer was used as filler to minimize the residual stresses between tungsten and 316L steel. The brazing experiments were conducted at 1050 °C for 25 min using Cu foils with different thickness. The results show that tungsten and 316L steel have been successfully joined by brazing. The intermetallic compound of NiW formed at the W/BNi-2 interface, which was detrimental to the strength of the joint. The microhardness of different diffusion zones is higher than that of the substrates owing to the formation of intermetallic compound and solid solution. All specimens of shear testing fractured at the W/BNi-2 interface close to W substrate, and the average strength of joints was 197, 275 and 268 MPa with multiple interlayer thickness of 0.2 , 0.1 and 0.05 mm copper foil, respectively, while the average strength of joints was 143 MPa with BNi-2 foil filler. The significant increase in the joint shear strength can be ascribed to the Cu foil in the multiple interlayer because of with excellent plasticity and toughness. Accepted version This work is supported by National Magnetic Confinement Fusion Program (Grant Nos. 2014GB121001 and 2014GB121001B) and The Foundation of Laboratory of Nonferrous Metal material and Processing Engineering of Anhui Province (15CZS08031). 2020-11-05T08:32:10Z 2020-11-05T08:32:10Z 2019 Journal Article Wang, M., Chen, Y., Li, X., Hua, P., Gao, L., Zhou, W., & Wu, Y. (2019). Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel. Journal of Materials Engineering and Performance, 28(3), 1745-1752. doi:10.1007/s11665-019-3871-7 1059-9495 https://hdl.handle.net/10356/144448 10.1007/s11665-019-3871-7 3 28 1745 1752 en Journal of Materials Engineering and Performance Copyright 2019 ASM International. All rights reserved. This paper was published in Journal of Materials Engineering and Performance, Vol. 28, Issue 3, pp. 1745-1752 and is made available as an electronic reprint with the permission of ASM International. application/pdf |
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Engineering::Mechanical engineering 316L Steel Brazing Wang, Meng Chen, Yuanting Li, Xianfen Hua, Peng Gao, Linfeng Zhou, Wei Wu, Yucheng Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
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Brazing is an effective technique for joining tungsten and steel. However, the high residual stresses are produced due to the different coefficients of thermal expansions between tungsten and steel. Compared with the direct brazing with BNi-2 foil filler, BNi-2/Cu/ BNi-2 multiple interlayer was used as filler to minimize the residual stresses between tungsten and 316L steel. The brazing experiments were conducted at 1050 °C for 25 min using Cu foils with different thickness. The results show that tungsten and 316L steel have been successfully joined by brazing. The intermetallic compound of NiW formed at the W/BNi-2 interface, which was detrimental to the strength of the joint. The microhardness of different diffusion zones is higher than that of the substrates owing to the formation of intermetallic compound and solid solution. All specimens of shear testing fractured at the W/BNi-2 interface close to W substrate, and the average strength of joints was 197, 275 and 268 MPa with multiple interlayer thickness of 0.2 , 0.1 and 0.05 mm copper foil, respectively, while the average strength of joints was 143 MPa with BNi-2 foil filler. The significant increase in the joint shear strength can be ascribed to the Cu foil in the multiple interlayer because of with excellent plasticity and toughness. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wang, Meng Chen, Yuanting Li, Xianfen Hua, Peng Gao, Linfeng Zhou, Wei Wu, Yucheng |
| format |
Article |
| author |
Wang, Meng Chen, Yuanting Li, Xianfen Hua, Peng Gao, Linfeng Zhou, Wei Wu, Yucheng |
| author_sort |
Wang, Meng |
| title |
Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
| title_short |
Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
| title_full |
Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
| title_fullStr |
Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
| title_full_unstemmed |
Effect of Cu interlayer on the microstructure and strength for brazing of Tungsten/316L steel |
| title_sort |
effect of cu interlayer on the microstructure and strength for brazing of tungsten/316l steel |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144448 |
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1759853786024640512 |