References
- Han W, Liu Y, Wan F, et al. Deformation behavior of austenitic stainless steel at deep cryogenic temperatures. J Nucl Mater. 2018;504:29–32.
- Tobler RL, Nishimura A, Yamamoto J. Design-relevant mechanical properties of 316-type steels for superconducting magnets. Cryogenics (Guildf). 1997;37:533–550.
- Fukikoshi T, Yūki W, Miyazawa Y, et al. Brazing of copper to stainless steel with a low-silver-content brazing filler metal. IOP Conf Ser: Mater Sci Eng. 2014;61:012016.
- Wang PW, Chen JM, Li Q, et al. Study on the microstructure and properties evolution of CuCrZr/316LN-IG explosion bonding for ITER first wall components. Fusion Eng Des. 2017;124(11):1135–1139.
- Zhang BG, Zhao J, Li XP, et al. Electron beam welding of 304 stainless steel to QCr0.8 copper alloy with copper filler wire. Trans Nonferrous Metals Soc China. 2014;24(12):4059–4066.
- Yao CW, Xu BS, Zhang XC, et al. Interface microstructure and mechanical properties of laser welding copper–steel dissimilar joint. Opt Lasers Eng. 2009;47(7–8):807–814.
- Maciejewski J. Liquid metal induced embrittlement in fuel line braze joints. J Fail Anal Prev. 2005;5(2):55–60.
- Haubner R, Strob S, Bichler LP, et al. Liquid metal embrittlement of copper brazed plate heat exchangers. Key Eng Mater. 2019;809:535–540.
- Lee HW, Sung JH. Effect of weld metal copper content on HAZ cracking in austenitic stainless steel welded with Al brass. Sci Technol Weld Joining. 2005;10(2):145–148.
- Uhlig T, Fedorov V, Elßner M, et al. Reduction of liquid metal embrittlement in copper-brazed stainless steel joints. IOP Conf Ser: Mater Sci Eng. 2017;181(1):012032.
- Nicholas MG, Old CF. Review liquid metal embrittlement. J Mater Sci. 1979;14:1–18.
- Kolman DG. A review of recent advances in the understanding of liquid metal embrittlement. Corrosion. 2019;75(1):42–57.
- Chen Y, Wu QQ, Pei YY, et al. Effects of brazing filler and method on ITER thermal anchor joint crack. Mater Manuf Processes. 2015;30(9):1074–1079.
- Zhang SS, Cheng YH, Cheng L. A study on vacuum brazing procedure of plate heat exchanger. Mater Sci Forum. 2004: 471–472.:640–643.
- Sejč P, Kubíček R. MIG brazing of 304L type stainless steel using CuSi3 and CuSi3MnAl brazing wire. Kov Mater. 2015;53:365–375.
- Sun ZC, Lee PY, Pan CJ, et al. The development of argon arc brazing with Cu-based filler for ITER thermal anchor attachment. IEEE/NPSS Symposium on Fusion Engineering; Chicago, USA. 2011: p.72–75.
- Yu ZS, Li RF, Qi K. Growth behavior of interfacial compounds in galvanized steel joints with CuSi3 filler under arc brazing. Trans Nonferrous Metals Soc China. 2006;16:1391–1396.
- Zhang Y, Ivey DG. Fe3Si formation in Fe–Si diffusion couples. J Mater Sci. 1998;33(12):3131–3135.
- Schneeweiss O P, Jirásková Y, et al. Fe3Si surface coating on SiFe steel. J Magn Magn Mater. 2000;215–216:115–117.
- Kim WY, Hanada S. Flow behavior and microstructures of large-grained Fe3Si during high temperature deformation. J Alloys Compd. 2002;347:219–227.