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Welding International Volume 32, 2018 - Issue 6
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Articles

Joint microstructures, mechanical properties and fatigue behaviour of ferritic stainless steel SUS 430 welds with different filler metals

Masayuki AkitaFaculty of Engineering, Gifu University
,
Yoshihiko UematsuDepartment of Mechanical Engineering, Faculty of Engineering, Gifu University
,
Toshifumi KakiuchiDepartment of Mechanical Engineering, Faculty of Engineering, Gifu University
,
Masaki NakajimaToyota College, National Institute of Technology
,
Yukio AgataNippon Welding Rod Co. Ltd.
&
Kohei TakinoNTN Corporation
Pages 427-435 | Published online: 23 Oct 2018

References

  • Kikuchi: M. Properties of stainless steel at elevated temperature. Sanyo Tech Rep. 2014;21(1): 11–27. in Japanese.
  • Fujita N, Ohmura K, Yamamoto: A. Changes of microstructures and high temperature properties during high temperature service of niobium added ferritic stainless steels. Mater Sci Eng. 2003;351(1–2):272–281.
  • Sim. GM, Ahn JC, Hong SC, et al. Effect of nb precipitate coarsening on the high temperature strength in nb containing ferritic stainless steels. Mater Sci Eng. 2005;396(1–2):159–165.
  • Inui K, Nagata: M. Development of the ferritic stainless steel welding wire for automotive exhaust systems. Electric Furnace Steel. 2001;72(3): 155–162. in Japanese.
  • Ujiro T, Kitazawa M, Satoh: S. Corrosion resistance of muffler materials in automotive exhaust gas condensates. J Soc Mater Sci. 1996;45(11): 1192–1197. in Japanese.
  • Murata: Y. Welding consumables of stainless steels for automotive exhaust system components. J Japan Welding Soc. 2003;72(7):561–565.
  • Nemoto: R. ステンレス鋼の基礎と上手な使い方. in Japanese. Japan Industrial Publishing; 2009. 96.
  • Japan Welding Society:. 溶接・接合技術特論. Sampo Publications; 2005. 181. in Japanese.
  • Wang X, Ishii H, Sato: K. Fatigue and microstructure of welded joints of metal sheets for automotive exhaust system. JSAE Rev. 2003;24(3):295–301.
  • Villaret V, Deschaux-Beaume F, Bordreuil C, et al. Influence of filler wire composition weld microstructures of a 444 ferritic stainless steel grade. J Mater Process Technol. 2013;213(9):1538–1547.
  • Bayraktar E, Moiron J, Kaplan: D. Effect of welding conditions on the formability characteristics of thin sheet steels: mechanical and metallurgical effects. J Mater Process Technol. 2006;175(1–3):20–26.
  • Taban E, Deleu E, Dhooge A, et al. Laser welding of modified 12% cr stainless steel: strength, fatigue, toughness, microstructure and corrosion properties. Mater Des. 2009;30(4):1193–1200.
  • Lakshminarayanan AK, Shanmugam K, Balasubranian: V. Effect of autogenous arc welding processes on tensile and impact properties of ferritic stainless steel joints. Journal of Iron and Steel Research, International. 2009;16(1):62–68.
  • Alizadeh-Sh M, Marashi SPH, Pouranvari M. Resistance spot welding of aisi 430 ferritic stainless steel: phase transformations and mechanical properties. Mater Des. 2014;56:258–263.
  • Zheng H, Ye X, Jiang L, et al. Study on microstructure of low carbon 12% chromium stainless steel in high temperature heat-affected zone. Mater Des. 2010;31(10):4836–4841.
  • Akita M, Uematsu Y, Kakiuchi T, et al. Effect of weld metal and test temperature on fatigue behavior in type 444 stainless steel welds. Transaction Japan Society Mechanical Engineers, Series. 2012;78(788): 432–441. in Japanese.
  • Hodges: RJ. Intergranular Corrosion in High Purity Ferritic Stainless Steels: effect of Cooling Rate and Alloy Composition. Corrosion-NACE. 1971;27(3):119–127.
  • Bond: P. mechanisms of intergranular corrosion in ferritic stainless steels. Trans Metallurgical Soc AIME. 1969;245(10):2127–2134.
  • Siqueira RP, Sandim HRZ, Oliveira: TR. Texture evolution in nb-containing ferritic stainless steels during secondary recrystallization. Mater Sci Eng. 2008;497(1–2):216–223.
  • Kim JK, Kim YH, Lee JS, et al. Effect of Chromium Content on Intergranular Corrosion and Precipitation of Ti-stabilized Ferritic Stainless Steels. Corrosion Sci. 2010;52(5):1847–1852.
  • Villaret V, Deschaux-Beaume F, Bordreuil C, et al. Characterization of Gas Metal arc welding welds obtained with new high Cr-Mo ferritic stainless steel filler wires. Mater Des. 2013;51:474–483.
  • Japan Welding Society:. 新版 溶接 • 接合技術入門. Sampo publications; 2008. 89. in Japanese.
  • Nakajima M, Akita M, Tokaji K, et al. Fatigue crack initiation and early growth behavior of ferritic stainless steel in laboratory air and 3%NaCl solution. Trans Japan Soc Mechanical Engineers, Ser. 2002;68(671): 1085–1091. in Japanese.
  • Uematsu Y, Akita M, Nakajima M, et al. Effect of Temperature on High Cycle Fatigue Behaviour in 18Cr-2Mo Ferritic Stainless Steel. Int J Fatigue. 2008;30(4):642–648.
  • Akita M, Nakajima M, Uematsu Y, et al. Effects of annealing and quenching on fatigue behaviour in type 444 ferritic stainless steel. Fatigue & Fracture of Engineering Materials & Structures. 2008;31(11):959–966.
  • Akita M, Uematsu Y, Tokaji K, et al. Aging and fatigue behaviour at elevated temperatures in ferritic stainless steels with different Cr contents. J Soc Mater Sci. 2009;58(12): 962–968. in Japanese.
  • Akita M, Uematsu Y, Kakiuchi T, et al. Fatigue behavior of laves-phase-precipitated nb-containing ferritic stainless steel JFE429EX in laboratory air and in 3%NaCl solution. Transactions JSME (Solid Mechanics Materials Engineering). 2015;81(830). in Japanese.
  • Cheng X, Fisher JW, Prask HRJ, et al. Residual stress modification by post-weld treatment and its beneficial effect on fatigue strength of welded structures. Int J Fatigue. 2003;25(9–11):1259–1269.
  • Nyuyen TN, Wanab: MA. The effect of weld geometry and residual stresses on the fatigue of welded joints under combined loading. J Mater Process Technol. 1998;77(Issues 1–3):201–208.
  • Ramkumar KD, Chandrasekhar A, Singh AK, et al. 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. 2015;20(1):54–69.
  • Ohata: M. Strength of welded joint, journal of manufacturing processes. J Japan Welding Soc. 2008;77(7): 678–684. in Japanese.

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