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Science and Technology of Welding and Joining Volume 26, 2021 - Issue 3
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Research Articles

Effect of post-weld heat treatment on the joint of friction-welded 1MnCrMoNi steel

Qidong Niea Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaORCID Iconhttps://orcid.org/0000-0003-0220-8115View further author information
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Xiang Wanga Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaCorrespondence[email protected]
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Sheng Wanga Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
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Ningxing Lib Yantai Branch of China North Industries Group Corporation No. 52 Institute Co., Ltd, Ningbo Branch of Chinese Academy of Ordnance Science, Yantai, People’s Republic of ChinaView further author information
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Xinlin Lia Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
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Jiaxin Lia Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
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Qiyuan Yua Key Laboratory of Superlight Material and Surface Technology, Ministry of Education, Harbin Engineering University, Harbin, People’s Republic of ChinaView further author information
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Pages 220-226 | Received 30 Nov 2020, Accepted 22 Jan 2021, Published online: 04 Feb 2021

References

  • Traverso P, Canepa E. A review of studies on corrosion of metals and alloys in deep-sea environment. Ocean Eng. 2014;87:10–15.
  • Nie QD, Wang X, Li XL, et al. Study on dynamic recrystallization behavior of 1MnCrMoNi steel during hot compression deformation. Mater Res Express. 2019;6(8):086513.
  • Wang XL, Tsai YT, Yang JR, et al. Effect of interpass temperature on the microstructure and mechanical properties of multi-pass weld metal in a 550-MPa-grade offshore engineering steel. Weld World. 2017;61(6):1155–1168.
  • Foroughi A, Shamanian M, Kasiri-Asgarani M, et al. Investigations on dissimilar weld of UNS S32205 DSS and ASTM A517 steel. Trans Indian Inst Met. 2017;71(3):533–544.
  • Ansaripour M, Soltanipour AR, Dehnavi MR. Microstructural features and corrosion analysis of A517 steel joint processed by friction stir welding. Mater Res Express. 2018;5(6):066543.
  • Shin YT, Lee HW. Evaluation of fracture behavior of the reheated weld zone in API 2W Gr. 50 steel weld metals. Met Mater Int. 2012;18(5):863–867.
  • Nicholas ED. Friction processing technologies. Weld World. 2003;47(11–12):2–9.
  • Uday MB, Ahmad Fauzi MN, Zuhailawati H, et al. Advances in friction welding process: a review. Sci Technol Weld Joining. 2010;15(7):534–558.
  • Xiong JT, Li JL, Wei YN, et al. An analytical model of steady-state continuous drive friction welding. Acta Mater. 2013;61(5):1662–1675.
  • Sathiya P, Aravindan S, Haq AN. Mechanical and metallurgical properties of friction welded AISI 304 austenitic stainless steel. Int J Adv Manuf Technol. 2005;26(5–6):745–750.
  • Ma H, Qin GL, Geng PH, et al. Microstructure characterization and properties of carbon steel to stainless steel dissimilar metal joint made by friction welding. Mater Des. 2015;86:587–597.
  • Meisnar M, Baker S, Bennett JM, et al. Microstructural characterisation of rotary friction welded AA6082 and Ti-6Al-4V dissimilar joints. Mater Des. 2017;132:188–197.
  • Udayakumar T, Raja K, Tanksale Abhijit A, et al. Experimental investigation on mechanical and metallurgical properties of super duplex stainless steel joints using friction welding process. J Manuf Process. 2013;15(4):558–571.
  • Mohammed AM, Shrikrishna KA, Sathiya P, et al. The impact of heat input on the strength, toughness, microhardness, microstructure and corrosion aspects of friction welded duplex stainless steel joints. J Manuf Process. 2015;18:92–106.
  • Sekban DM, Aktarer SM, Purcek G. Friction stir welding of low-carbon shipbuilding steel plates: microstructure, mechanical properties, and corrosion behavior. Metall Mater Trans A. 2019;50(9):4127–4140.
  • Ogawa D, Kakiuchi T, Hashiba K, et al. Residual stress measurement of Al/steel dissimilar friction stir weld. Sci Technol Weld Joining. 2019;24(8):685–694.
  • Liu X, Cai ZP, Yang SD, et al. Characterization on the microstructure evolution and toughness of TIG weld Metal of 25Cr2Ni2MoV steel after post weld heat treatment. Metals. 2018;8(3):160.
  • Ghorbani S, Ghasemi R, Ebrahimi-Kahrizsangi R, et al. Effect of post weld heat treatment (PWHT) on the microstructure, mechanical properties, and corrosion resistance of dissimilar stainless steels. Mater Sci Eng A. 2017;688:470–479.
  • Maalekian M. Friction welding – critical assessment of literature. Sci Technol Weld Joining. 2007;12(8):738–759.
  • Katiyar PK, Misra S, Mondal K. Comparative corrosion behavior of five microstructures (pearlite, bainite, spheroidized, martensite, and tempered martensite) made from a high carbon steel. Metall Mater Trans A. 2019;50(3):1489–1501.
  • Zhou WH, Challa VSA, Guo H, et al. Structure–mechanical property relationship in a low carbon Nb–Cu microalloyed steel processed through a three-step heat treatment: the effect of tempering process. Mater Sci Eng A. 2015;620:454–462.
  • Dlouhy J, Podany P, Dzugan J. Strengthening from Cu addition in 0.2C-(1-2)Mn steels during tempering. Materials. 2019;12(2):247.
  • Yan S, Liang TS, Chen JQ, et al. A novel Cu-Ni added medium Mn steel: precipitation of Cu-rich particles and austenite reversed transformation occurring simultaneously during ART annealing. Mater Sci Eng A. 2019;746:73–81.
  • Dépinoy S, Toffolon-Masclet C, Urvoy S, et al. Carbide precipitation in 2.25 Cr-1 Mo bainitic steel: effect of heating and isothermal tempering conditions. Metall Mater Trans A. 2017;48(5):2164–2178.
  • Soleimani M, Mirzadeh H, Dehghanian C. Effect of grain size on the corrosion resistance of low carbon steel. Mater Res Express. 2020;7(1):016522.
  • Zhao YJ, Ren XP, Hu ZL, et al. Effect of tempering on microstructure and mechanical properties of 3Mn-Si-Ni martensitic steel. Mater Sci Eng A. 2018;711:397–404.
  • Han Y, Shi J, Xu L, et al. Effect of hot rolling temperature on grain size and precipitation hardening in a Ti-microalloyed low-carbon martensitic steel. Mater Sci Eng A. 2012;553:192–199.
  • Balan KP, Reddy AV, Sarms DS. Austenite precipitation during tempering in 16Cr-2Ni martensitic stainless steels. Scr Mater. 1998;39:901–905.
  • Liu SC, Jie JC, Dong BW, et al. Novel insight into evolution mechanism of second liquid-liquid phase separation in metastable immiscible Cu-Fe alloy. Mater Des. 2018;156:71–81.
  • Cao LW, Wu SJ, Liu B. On the Cu precipitation behavior in thermo-mechanically embrittlement processed low copper reactor pressure vessel model steel. Mater Des. 2013;47:551–556.
  • Trinh D, Frappart S, Rückert G, et al. Effect of friction stir welding process on microstructural characteristics and corrosion properties of steels for naval applications. Corros Eng Sci Technol. 2019;54(4):353–361.
  • Chabok A, Dehghani K. Effect of processing parameters on the mechanical properties of interstitial free steel subjected to friction stir processing. J Mater Eng Perform. 2013;22(5):1324–1330.
  • Dong HG, Yu LZ, Gao HM, et al. Microstructure and mechanical properties of friction welds between TiAl alloy and 40Cr steel rods. Trans Nonferrous Met Soc China. 2014;24:3126–3133.
  • Dey HC, Ashfaq M, Bhaduri AK, et al. Joining of titanium to 304L stainless steel by friction welding. J Mater Process Technol. 2009;209(18-19):5862–5870.
  • Sadeghi B, Sharifi H, Rafiei M, et al. Effects of post weld heat treatment on residual stress and mechanical properties of GTAW: the case of joining A537CL1 pressure vessel steel and A321 austenitic stainless steel. Eng Failure Anal. 2018;94:396–406.
  • Yan P, Liu ZD, Bao HS, et al. Effect of tempering temperature on the toughness of 9Cr–3W–3Co martensitic heat resistant steel. Mater Des. 2014;54:874–879.
  • Nagaraj M, Ravisankar B. Effect of severe plastic deformation on microstructure and mechanical behaviour of friction-welded structural steel IS2062. Trans Indian Inst Met. 2018;72(3):751–756.
  • Hajian M, Abdollah-zadeh A, Rezaei-Nejad SS, et al. Microstructure and mechanical properties of friction stir processed AISI 316L stainless steel. Mater Des. 2015;67:82–94.
  • Ramesh R, Dinaharan I, Kumar R, et al. Microstructure and mechanical characterization of friction stir welded high strength low alloy steels. Mater Sci Eng A. 2017;687:39–46.
  • Chen CY, Chen CC, Yang JR. Microstructure characterization of nanometer carbides heterogeneous precipitation in Ti–Nb and Ti–Nb–Mo steel. Mater Charact. 2014;88:69–79.
  • Sabzi M, Dezfuli SM. Post weld heat treatment of hypereutectoid Hadfield steel: characterization and control of microstructure, phase equilibrium, mechanical properties and fracture mode of welding joint. J Manuf Process. 2018;34:313–328.
  • Jo WJ, Ahn HJ, Kim JH, et al. Fracture characteristics of Frit bonding through in-situ nano-indentation testing. J Mater Sci Technol. 2016;32(11):1204–1210.
  • Wang LW, Liu ZY, Cui ZY, et al. In situ corrosion characterization of simulated weld heat affected zone on API X80 pipeline steel. Corros Sci. 2014;85:401–410.
  • Li Y, Wang F, Liu G. Grain size effect on the electrochemical corrosion behavior of surface nanocrystallized low-carbon steel. Corrosion. 2004;60(10):891–896.
  • Rofagha R, Langer R, El-Sherik AM, et al. The corrosion behaviour of nanocrystalline nickel. Scr Metall Mater. 1991;25(12):2867–2872.
  • Hao XH, Dong JH, Etim I-IN, et al. Sustained effect of remaining cementite on the corrosion behavior of ferrite-pearlite steel under the simulated bottom plate environment of cargo oil tank. Corros Sci. 2016;110:296–304.

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