Investigation of dissimilar joining ferritic stainless steel 430 to austenitic stainless steel 304 by transient liquid phase bonding process
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Ferritic stainless steel 430, Austenitic stainless steel 304, Transient liquid phaseบทคัดย่อ
In this study, dissimilar joining of ferritic stainless steel 430 with austenitic stainless steel 304 with BNi-2 Interlayer was investigated by the joint process of the transient liquid phase under inert gas. The joint process was carried out at a constant temperature of 1120°C and at four storage times of 30, 60, 120 and 180 min. To investigate the microscopic structure of the optical microscope, a scanning electron microscope and an X-ray diffraction spectroscopy were used to investigate the mechanical properties of the microhardness and stretching device. At 120 min of storage, due to the proper penetration of the interlayer into base metals and the formation of intermetallic compounds, the hardness in the four dough areas, mashi zone, heat affected zone, joint and the base metal interface reached its maximum. The maximum shear strength was also achieved at the same temperature and storage time, equal to 860 kPa. during storage, 180 min, although proper penetration of the interlayer was performed in base metals, but due to an increase in the diameter of the ferritic stainless steel grains from 10 to 35 µm and the austenitic steel ranged from 7 to 29 µm, relative strength and hardness were reduced.Downloads
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M. Atabakia, J. Noor Wati, and J. Bte Idris, “Transient liquid phase diffusion-bonding of stainless steel,” Metallurgical and Materials Engineering, vol. 18, pp. 177-186, 2012
H. M. Garsia, A. Martinez, R. Munoz, J. Acevedo, V. Garsia, and F. Freyes, “Effects of silicon nanoparticles on the transient liquid phase bonding of 304 stainless steel,” Material Science and Technology, vol. 30, pp. 1-4, 2013.
M. Balasubramanian, “Characterization of diffusion-bonded titanium alloy and 304stainless steel with Ag as an interlayer,” The International Journal of Advance Manufacturing Technology, vol. 82, pp. 153- 162, 2015.
S. Ozan, M. taskin, and S. Kolukisa, “The effect of the process temperature on the bondability in transient liquid phase (TLP) diffusion of AISI 430 ferritic stainless steel with nodular (Spheroid) Csst iron using a copper interlayer,” Havser e Library Journal, vol. 43, pp. 575-588, 2006.
K. Saida, Y. Zhou, and T. H. North, “The influence of base metal grain size on isothermal solidification during transient liquid-phase brazing of nickel,” Journal of Materials Science, vol. 28, pp. 6427-6432, 1993.
M. S. Khorrami, M. A. Mostafaei, H. Pouraliakbar, and A. Hossein Kokabi, “Study on microstructure and mechanical characteristics of low-carbon steel and ferritic stainless steel joints,” Materials Science & Engineering: A, vol. 608, pp. 35– 45, 2014.
J. Veverkova, A. Strang, G. R. Marchant, G. M. Mc Colvin, and H. V. Atkinson, “High temperature microstructural degradation of Haynes alloy 230,” The Mineral, Metal and Materials Society, vol. 2008, pp. 479-488, 2008.
Y. Wang, “Transient Liquid Phase Joining of Carbon and Steels of Aluminum Alloy Using Gallium Metal,” Master Degree of Science, Materials and Science Engineering, University of Illinois, Chicago, 2015.
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