Evaluation of hot crack sensitivity and mechanical properties of ER310 welding metal in 304 stainless steel welding joints by applying electromagnetic vibration
Subject Areas : Journal of New Applied and Computational Findings in Mechanical Systemsmohammad amin ghadam dezfouli 1 , reza dehmolaei 2 , seyed reza alavi zaree 3
1 - Shahid Chamran University of Ahvaz, Department of Materials Engineering
2 - Department of Materials Engineering, Faculty of Engineering, Shahid Chamran University of Ahvaz, Ahvaz, Iran
3 - Material Science and Engineering Department, Faculty
of Engineering, Shahid Chamran University of Ahvaz,
Ahvaz, Iran
Keywords: Electromagnetic Vibration, Columnar and Coaxial dendrite, Hot cracking, Austenitic Stainless Steel, varestraint test,
Abstract :
[1] Jia-long, Y. Ying, L. Fu, W. Zheng-gui, Z. Si-jun, L., (2006), New Application of Stainless Steel, Journal of Iron and Steel Research, International 13(1) pp 62-66.
[2] Lippold, J.C., (2014), Welding metallurgy and weldability, John Wiley & Sons.
[3] Dehmolaei, R. Shamanian, M. Kermanpur, A., (2008), Effect of Electromagnetic Vibration on the Unmixed Zone Formation in 25Cr–35Ni Heat Resistant Steel/Alloy 800 Dissimilar Welds, Materials Characterization 59(12) pp 1814-1817.
[4] Kumar, S. Shahi, A.S., (2011), Effect of Heat Input on the Microstructure and Mechanical Properties of Gas Tungsten Arc Welded AISI 304 Stainless Steel Joints, Materials & Design 32(6) pp 3617-3623.
[5] Kou, S., (2003), Welding Metallurgy, John Wiley & Sons.
[6] Zheng, P., Lu, Q., Zhang, P., Yan, H., Zhao, j., Shi, H., (2021), Effect of Vibration on Microstructure and Fatigue Properties of 6082 CMT-Welded Joints, Transactions of the Indian Institute of Metals 74(9) pp 2149 - 2159.
[7] Singh, P.K., Prasad, S.B., Patel, S., (2021), Effect of Vibrations on Solidification Behavior and Mechanical Properties of Shielded Metal Arc Weld, Next Generation Materials and Processing Technologies 9 pp 209-219.
[8] Amra, M. Alavi Zaree, S. R. Dehmolaei, R., (2021), Dissimilar Welding Between 1.4742 Ferritic and 310S Austenitic Stainless Steels: Assessment of Oxidation Behaviour, Metals and Materials International 27 pp 931–945.
[9] Pourjafar, A. Dehmolaei, R., (2017), the Influence of Electromagnetic Vibration on the Microstructure and Corrosion Behavior of Incoloy 825 Superalloy Weld Metal, Journal of Environmental Friendly Materials 1(2) pp 7-13.
[10] Wahabi, M. El., Cabrera, J.M., Prado, J.M., (2003), Hot working of Two AISI 304 Steels: a Comparative Study, Materials Science and Engineering: A 343(1-2) pp 116-125.
[11] Lundin, C. Chou, C. Sullivan, C., (1980), Hot Cracking Resistance of Austenitic Stainless Steel Weld Metals, Welding Journal 59(8) pp 226s-232s.
[12] Dong, Z. Wei, Y. Xu, Y., (2006), Predicting Weld Solidification Cracks in Multipass Welds of SUS310 Stainless Steel, Computational Materials Science 38(2) pp 459-466.
[13] Balasubramanian, V. Ravisankar, V. Reddy, G.M., (2008), Effect of Pulsed Current Welding on Mechanical Properties of High Strength Aluminum Alloy, the International Journal of Advanced Manufacturing Technology 36(3-4) pp 254-262.
[14] Ghadam Dezfuli, M. A. Dehmolaei, R. Alavi Zaree, S. R., (2019), Microstructural Aspects of 304 Stainless Steel Weld Joints with the Simultaneous Application of Electromagnetic Vibration, Metallography, Microstructure, and Analysis 8 pp 226–232.
[15] Kuo, Ch. Lin, C. M. Lai, G. H. Chen, Y. C. Chang, Y. T. Wu, W., (2007), Characterization and Mechanism of 304 Stainless Steel Vibration Welding, Materials Transactions 48(9) pp 2319-2323.
[16] Hung, J.C., Lin, C.C., (2013), Investigations on the Material Property Changes of Ultrasonic Vibration Assisted Aluminum Alloy Upsetting, Materials & Design 45 pp 412–420.
[17] Cui, Y. Xu, C.L. Han, Q., (2006), Effect of Ultrasonic Vibration on Unmixed Zone Formation, Scripta Materialia 55 pp 975–978.
[18] Curiel, F.F. Garcia, R. Lopez, V.H. Gonzlez, J., (2011), Effect of Magnetic Field Applied During Gas Metal Arc Welding on the Resistance to Localised Corrosion of the Heat Affected Zone in AISI 304 Stainless Steel, Corrosion Science 53 pp 2393–2399.
[19] Wu, W., (2000), Influence of Vibration Frequency on Solidification of Weldments, Scripta mater 42 pp 661–665.
[20] Zhang, C., Zheng, S.Y., (2009), Effect of Ultrasonic Cavitation and its Application, Journal of Water Resources and Water Engineering 20 pp. 136–138.
[21] Wahabi, M. El. Cabrera, J.M. Prado, J.M., (2003), Hot Working of Two AISI 304 Steels: a Comparative Study, Materials Science and Engineering: A 343(1-2) pp 116-125.
[22] Lundin, C. Chou, C. Sullivan, C., (1980), Hot Cracking Resistance of Austenitic Stainless Steel Weld Metals, Welding Journal 59(8) pp 226s-232s.
[23] Jeng, Sh. L. Su, D.P. Lee, J. T. Huang, J.Y., (2018), Effects of Electromagnetic Stirring on the Cast Austenitic Stainless Steel Weldments by Gas Tungsten ArcWelding, Metals 8(8) 630.
[24] Watanabe, T. Shiroki, M. Yanagisawa, A. Sasaki, T., (2010), Improvement of Mechanical Properties of Ferritic Stainless Steel Weld Metal by Ultrasonic Vibration, Journal of Materials Processing Technology 210(12) pp 1646-1651.
[25] Thavamani, R. Balusamy, V. Nampoothiri, J. Subramanian, R. Ravi, K.R., (2018), Mitigation of Hot Cracking in Inconel 718 Superalloy by Uultrasonic Vibration During Gas Tungsten Arc Welding, Journal of Alloys and Compounds 740, pp 870-878.
[26] Liu, G., Du, D., Wang, K., Pu, Z., Chang, B., (2020), Hot cracking behavior and mechanism of the IC10 directionally solidified superalloy during laser re-melting, Vacuum 181, pp 257-271.
[1] Jia-long, Y. Ying, L. Fu, W. Zheng-gui, Z. Si-jun, L., (2006), New Application of Stainless Steel, Journal of Iron and Steel Research, International 13(1) pp 62-66.
[2] Lippold, J.C., (2014), Welding metallurgy and weldability, John Wiley & Sons.
[3] Dehmolaei, R. Shamanian, M. Kermanpur, A., (2008), Effect of Electromagnetic Vibration on the Unmixed Zone Formation in 25Cr–35Ni Heat Resistant Steel/Alloy 800 Dissimilar Welds, Materials Characterization 59(12) pp 1814-1817.
[4] Kumar, S. Shahi, A.S., (2011), Effect of Heat Input on the Microstructure and Mechanical Properties of Gas Tungsten Arc Welded AISI 304 Stainless Steel Joints, Materials & Design 32(6) pp 3617-3623.
[5] Kou, S., (2003), Welding Metallurgy, John Wiley & Sons.
[6] Zheng, P., Lu, Q., Zhang, P., Yan, H., Zhao, j., Shi, H., (2021), Effect of Vibration on Microstructure and Fatigue Properties of 6082 CMT-Welded Joints, Transactions of the Indian Institute of Metals 74(9) pp 2149 - 2159.
[7] Singh, P.K., Prasad, S.B., Patel, S., (2021), Effect of Vibrations on Solidification Behavior and Mechanical Properties of Shielded Metal Arc Weld, Next Generation Materials and Processing Technologies 9 pp 209-219.
[8] Amra, M. Alavi Zaree, S. R. Dehmolaei, R., (2021), Dissimilar Welding Between 1.4742 Ferritic and 310S Austenitic Stainless Steels: Assessment of Oxidation Behaviour, Metals and Materials International 27 pp 931–945.
[9] Pourjafar, A. Dehmolaei, R., (2017), the Influence of Electromagnetic Vibration on the Microstructure and Corrosion Behavior of Incoloy 825 Superalloy Weld Metal, Journal of Environmental Friendly Materials 1(2) pp 7-13.
[10] Wahabi, M. El., Cabrera, J.M., Prado, J.M., (2003), Hot working of Two AISI 304 Steels: a Comparative Study, Materials Science and Engineering: A 343(1-2) pp 116-125.
[11] Lundin, C. Chou, C. Sullivan, C., (1980), Hot Cracking Resistance of Austenitic Stainless Steel Weld Metals, Welding Journal 59(8) pp 226s-232s.
[12] Dong, Z. Wei, Y. Xu, Y., (2006), Predicting Weld Solidification Cracks in Multipass Welds of SUS310 Stainless Steel, Computational Materials Science 38(2) pp 459-466.
[13] Balasubramanian, V. Ravisankar, V. Reddy, G.M., (2008), Effect of Pulsed Current Welding on Mechanical Properties of High Strength Aluminum Alloy, the International Journal of Advanced Manufacturing Technology 36(3-4) pp 254-262.
[14] Ghadam Dezfuli, M. A. Dehmolaei, R. Alavi Zaree, S. R., (2019), Microstructural Aspects of 304 Stainless Steel Weld Joints with the Simultaneous Application of Electromagnetic Vibration, Metallography, Microstructure, and Analysis 8 pp 226–232.
[15] Kuo, Ch. Lin, C. M. Lai, G. H. Chen, Y. C. Chang, Y. T. Wu, W., (2007), Characterization and Mechanism of 304 Stainless Steel Vibration Welding, Materials Transactions 48(9) pp 2319-2323.
[16] Hung, J.C., Lin, C.C., (2013), Investigations on the Material Property Changes of Ultrasonic Vibration Assisted Aluminum Alloy Upsetting, Materials & Design 45 pp 412–420.
[17] Cui, Y. Xu, C.L. Han, Q., (2006), Effect of Ultrasonic Vibration on Unmixed Zone Formation, Scripta Materialia 55 pp 975–978.
[18] Curiel, F.F. Garcia, R. Lopez, V.H. Gonzlez, J., (2011), Effect of Magnetic Field Applied During Gas Metal Arc Welding on the Resistance to Localised Corrosion of the Heat Affected Zone in AISI 304 Stainless Steel, Corrosion Science 53 pp 2393–2399.
[19] Wu, W., (2000), Influence of Vibration Frequency on Solidification of Weldments, Scripta mater 42 pp 661–665.
[20] Zhang, C., Zheng, S.Y., (2009), Effect of Ultrasonic Cavitation and its Application, Journal of Water Resources and Water Engineering 20 pp. 136–138.
[21] Wahabi, M. El. Cabrera, J.M. Prado, J.M., (2003), Hot Working of Two AISI 304 Steels: a Comparative Study, Materials Science and Engineering: A 343(1-2) pp 116-125.
[22] Lundin, C. Chou, C. Sullivan, C., (1980), Hot Cracking Resistance of Austenitic Stainless Steel Weld Metals, Welding Journal 59(8) pp 226s-232s.
[23] Jeng, Sh. L. Su, D.P. Lee, J. T. Huang, J.Y., (2018), Effects of Electromagnetic Stirring on the Cast Austenitic Stainless Steel Weldments by Gas Tungsten ArcWelding, Metals 8(8) 630.
[24] Watanabe, T. Shiroki, M. Yanagisawa, A. Sasaki, T., (2010), Improvement of Mechanical Properties of Ferritic Stainless Steel Weld Metal by Ultrasonic Vibration, Journal of Materials Processing Technology 210(12) pp 1646-1651.
[25] Thavamani, R. Balusamy, V. Nampoothiri, J. Subramanian, R. Ravi, K.R., (2018), Mitigation of Hot Cracking in Inconel 718 Superalloy by Uultrasonic Vibration During Gas Tungsten Arc Welding, Journal of Alloys and Compounds 740, pp 870-878.
[26] Liu, G., Du, D., Wang, K., Pu, Z., Chang, B., (2020), Hot cracking behavior and mechanism of the IC10 directionally solidified superalloy during laser re-melting, Vacuum 181, pp 257-271.
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