Phase and chemical structure characterization in double sided TIG arc welding of HARDOX 450 and AISI 430 steel
Year 2020,
, 987 - 994, 29.12.2020
Tanju Teker
,
Denizer Gençdoğan
Abstract
In this study, HARDOX 450 and AISI 430 grades are combined using double-sided tungsten inert gas (TIG) welding process. Microstructural properties of weld zone were evaluated with optical microscope (OM), scanning electron microscope (SEM), energy dispersive spectroscopy (EDS), electron back scatter diffraction (EBSD), elemental mapping analysis. After tensile testing, fracture surface morphology was evaluated using SEM. The width and depth of the weld seam increased with the increase in current. Carbon and chrome diffusion gradients were formed on the HARDOX 450 steel side by FSS in welded joints. The crystallographic plane was dominated by blue and, concentrated in the direction of {101}, {001}, {111}.
Supporting Institution
This work, Adıyaman University was supported by the Scientific Research Project Unit.
Project Number
(MÜFYL/2019-001).
Thanks
This work, Adıyaman University was supported by the Scientific Research Project Unit under the project number (MÜFYL/2019-001).
References
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Year 2020,
, 987 - 994, 29.12.2020
Tanju Teker
,
Denizer Gençdoğan
Project Number
(MÜFYL/2019-001).
References
- [1] Mallaiah G., Kumar A., Reddy P.R., and Reddy G.M., Influence of grain refining elements on mechanical properties of AISI 430 ferritic stainless steel weldments–taguchi approach, Mater. Des., 36 (2012) 443–450.
- [2] Alizadeh-Sh M., Marashi S.P.H., and Pouranvari M. , Resistance spot welding of AISI 430 ferritic stainless steel: phase transformations and mechanical properties, Mater. Des., 56 (2014) 258–263.
- [3] Sathiya P., Aravindan S., and Noorul Haq A., Effect of friction welding parameters on mechanical and metallurgical properties of ferritic stainless steel, Int. J. Adv. Manuf. Technol., 31 (2007) 1076–1108.
- [4] Anbazhagan V., Nagalakshmi R., Metallurgical studies in ferritic stainless steel welds, Weld. Res. J., 23(3) (2002) 25–37.
- [5] Watanabe T., Shiroki M., Yanagisawa A., and Sasaki T., Improvement of mechanical properties of ferritic stainless steel weld metal by ultrasonic vibration, J. Mater. Process. Technol., 210(12) (2010) 1646–1651.
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- [7] Lakshminarayanan A.K., Shanmugam K., and Balasubramanian V., Effect of autogenous arc welding processes on tensile and impact properties of ferritic stainless steel joints, J. Iron Steel Res. Int., 16(1) (2009) 62–68.
- [8] Konat Ł., Białobrzeska B., and Białek P., Effect of welding process on microstructural and mechanical characteristics of HARDOX 600 steel, Metals, 7(9) (2017) 1–18.
- [9] Zhang Y., Huang J., Cheng Z., Ye Z., Chi H., Peng L., and Chen S., Study on MIG-TIG double-sided arc welding-brazing of aluminum and stainless steel, Mater. Lett., 172 (2016) 146–148.
- [10] Zhang Y.M., Pan C., and Male A.T., Improved microstructure and properties of 6061 aluminium alloy weldments using a double-sided arc welding process, Metall. Mater. Trans. A., 31(10) (2000) 2537–2543.
- [11] Cheng Z., Huang J., Ye Z., Yang J., and Chen S., Butt brazing of titanium alloys/stainless steel plates by MIG-TIG double-sided arc welding process with copper filler metal, J. Mater. Res. Tech., 8(1) (2019) 1566–1570.
- [12] Zhang Y.M., Pan C., and Male, A.T., Welding of austenitic stainless steel using double sided arc welding process, Mater. Sci. Technol., 17(10) (2001) 1280-1284.
- [13] Yang C, Zhang H., Zhongj., Chen Y., and Chen S., The effect of DSAW on preheating temperature in welding thick plate of high-strength low-alloy steel, Int. J. Adv. Manuf. Technol., 71 (2014) 421–428.
- [14] Xiong J., Liu S., and Zhang G., Thermal cycle and microstructure of backing weld in double-sided TIG arc horizontal welding of high-strength steel thick plate, Int. J. Adv. Manuf. Tech., 81 (2015) 1939–1947.
- [15] Villaret V., Deschaux-Beaume F., Bordreuil C., Fras G., Chovet C., Petit B., and Faivre L., Characterization of gas metal arc welding welds obtained with new high Cr-Mo ferritic stainless steel filler wires, Mater. Des., 51 (2013) 474–483
.
[16] Ramkumar K.D., Chandrasekhar A., Singh A.K., Ahuja S., Agarwal A., Arivazhagan N., and Rabel A.M., Comparative studies on the weldability, microstructure and tensile properties of autogenerous TIG welded AISI 430 ferritic stainless steel with and without flux, J. Manuf. Process., 20(1) (2015) 54–69.
- [17] Silva C.C., Farias J.P., Miranda H.C., Guimaraes R.F., Menezes J.W.W., and Neto M.A.M., Microstructural characterization of the HAZ in AISI 444 ferritic stainless steel welds, Mater. Charac., 59(5) (2008) 528–533.
- [18] Zhang Y.M., Zhang S.B., and Jiang M., Keyhole double-sided arc welding process, Weld. J., 81(11) (2002) 249–255.
- [19] Cheng Z., Liu H., Huang J., Ye Z., Yang J., and Chen S., MIG-TIG double sided arc welding of copper-stainless steel using different filler metals, J. Manuf. Proces., 55 (2020) 208–219.
- [20] Lakshminarayanan A.K., Shanmugam K., and Balasubramanian V., Effect of autogenous arc welding processes on tensile and impact properties of ferritic stainless steel joints, J. Iron Steel Res. Int., 16(1) (2009) 62–68.
- [21] Lippold J., Kotecki D., Welding metallurgy and weldability of stainless steel, In. Lippold J., Fritz M.A., USA: John Wiley and Sons; 2005.