How to cite this paper
Pandey, P., Rathi, R., Singh, M & Verma, J. (2024). Experimental analysis on microstructure, mechanical properties, and corrosion behavior of TIG welded AISI 444 ferritic stainless steels.Engineering Solid Mechanics, 12(1), 93-102.
Refrences
Ambade, S. P., Sharma, A., Patil, A. P., & Puri, Y. M. (2021). Effect of welding processes and heat input on corrosion behaviour of Ferritic stainless steel 409M. Materials Today: Proceedings, 41, 1018-1023.
Arivarasu, M., Ramkumar Kasinath, D., & Natarajan, A. (2015). Effect of continuous and pulsed current on the metallurgical and mechanical properties of gas tungsten arc welded AISI 4340 aeronautical and AISI 304 L austenitic stainless steel dissimilar joints. Materials Research, 18, 59-77.
Delgado, A. J., Ambriz, R. R., Cuenca-Álvarez, R., Alatorre, N., & López, F. F. (2016). Heat input effect on the microstructural transformation and mechanical properties in GTAW welds of a 409L ferritic stainless steel. Revista de Metalurgia, 52(2), 68-77.
Dong, Z., Li, Y., Lee, B., Babkin, A., & Chang, Y. (2022). Research status of welding technology of ferritic stainless steel. The International Journal of Advanced Manufacturing Technology, 1-27.
Kalpana, J., & Rao, P. (2017). Effect of vibratory welding process on hardness of dissimilar welded joints. Engineering Solid Mechanics, 5(2), 133-138.
Kalpana, J., & Rao, P. (2017). A review on techniques for improving the mechanical properties of fusion welded joints. Engineering Solid Mechanics, 5(4), 213-224.
Kumar, G. S., Ramesh, M., Dinesh, S., Paramasivam, P., & Parthipan, N. (2022). Investigation of the TIG welding process for joining AA6082 alloy using grey relational analysis. Advances in Materials Science and Engineering, 2022.
Li, Y., Du, P. F., Jiang, Z. H., Yao, C. L., Bai, L., Wang, Q., ... & Li, H. B. (2019). Effects of TiC on the microstructure and formation of acicular ferrite in ferritic stainless steel. International Journal of Minerals, Metallurgy and Materials, 26(11), 1385-1395.
Mallaiah, G., Kumar, A., Reddy, P. R., & Reddy, G. M. (2012). Influence of grain refining elements on mechanical properties of AISI 430 ferritic stainless steel weldments–Taguchi approach. Materials & Design (1980-2015), 36, 443-450.
Prashar, G., & Vasudev, H. (2021). A comprehensive review on sustainable cold spray additive manufacturing: State of the art, challenges and future challenges. Journal of Cleaner Production, 310, 127606.
Prashar, G., & Vasudev, H. (2022). Structure–property correlation of plasma-sprayed Inconel625-Al2O3 bimodal composite coatings for high-temperature oxidation protection. Journal of Thermal Spray Technology, 31(8), 2385-2408.
Qu, H. P., Lang, Y. P., Yao, C. F., Chen, H. T., & Yang, C. Q. (2013). The effect of heat treatment on recrystallized microstructure, precipitation and ductility of hot-rolled Fe–Cr–Al–REM ferritic stainless steel sheets. Materials Science and Engineering: A, 562, 9-16.
Saeheaw, T. (2023). Comparison of different supervised machine learning algorithms for bead geometry prediction in GMAW process. Engineering Solid Mechanics, 11(2), 175-190.
Saeidi, K., Kevetkova, L., Lofaj, F., & Shen, Z. (2016). Novel ferritic stainless steel formed by laser melting from duplex stainless steel powder with advanced mechanical properties and high ductility. Materials Science and Engineering: A, 665, 59-65.
Sathiya, P., Aravindan, S., & Noorul Haq, A. (2007). Effect of friction welding parameters on mechanical and metallurgical properties of ferritic stainless steel. The International Journal of Advanced Manufacturing Technology, 31, 1076-1082.
Silva, C. C., Farias, J. P., Miranda, H. C., Guimaraes, R. F., Menezes, J. W., & Neto, M. A. (2008). Microstructural characterization of the HAZ in AISI 444 ferritic stainless steel welds. Materials characterization, 59(5), 528-533.
Singh, M., Goyat, R., & Panwar, R. (2023). Fundamental pillars for industry 4.0 development: implementation framework and challenges in manufacturing environment. The TQM Journal.
Tavares, S. S. M., De Souza, J. A., Herculano, L. F. G., De Abreu, H. F. G., & de Souza Jr, C. M. (2008). Microstructural, magnetic and mechanical property changes in an AISI 444 stainless steel aged in the 560 C to 800 C range. Materials characterization, 59(2), 112-116.
Vasudev, H., Prashar, G., Thakur, L., & Bansal, A. (2021). Electrochemical corrosion behavior and microstructural characterization of HVOF sprayed Inconel-718 coating on gray cast iron. Journal of Failure Analysis and Prevention, 21, 250-260.
Vasudev, H., Thakur, L., Singh, H., & Bansal, A. (2022). Effect of addition of Al2O3 on the high-temperature solid particle erosion behaviour of HVOF sprayed Inconel-718 coatings. Materials Today Communications, 30, 103017.
Verma, J., & Taiwade, R. V. (2017). Effect of welding processes and conditions on the microstructure, mechanical properties and corrosion resistance of duplex stainless steel weldments—A review. Journal of Manufacturing Processes, 25, 134-152.
Zhang, W., Jiang, W., Zhao, X., & Tu, S. T. (2018). Fatigue life of a dissimilar welded joint considering the weld residual stress: Experimental and finite element simulation. International Journal of Fatigue, 109, 182-190.
Arivarasu, M., Ramkumar Kasinath, D., & Natarajan, A. (2015). Effect of continuous and pulsed current on the metallurgical and mechanical properties of gas tungsten arc welded AISI 4340 aeronautical and AISI 304 L austenitic stainless steel dissimilar joints. Materials Research, 18, 59-77.
Delgado, A. J., Ambriz, R. R., Cuenca-Álvarez, R., Alatorre, N., & López, F. F. (2016). Heat input effect on the microstructural transformation and mechanical properties in GTAW welds of a 409L ferritic stainless steel. Revista de Metalurgia, 52(2), 68-77.
Dong, Z., Li, Y., Lee, B., Babkin, A., & Chang, Y. (2022). Research status of welding technology of ferritic stainless steel. The International Journal of Advanced Manufacturing Technology, 1-27.
Kalpana, J., & Rao, P. (2017). Effect of vibratory welding process on hardness of dissimilar welded joints. Engineering Solid Mechanics, 5(2), 133-138.
Kalpana, J., & Rao, P. (2017). A review on techniques for improving the mechanical properties of fusion welded joints. Engineering Solid Mechanics, 5(4), 213-224.
Kumar, G. S., Ramesh, M., Dinesh, S., Paramasivam, P., & Parthipan, N. (2022). Investigation of the TIG welding process for joining AA6082 alloy using grey relational analysis. Advances in Materials Science and Engineering, 2022.
Li, Y., Du, P. F., Jiang, Z. H., Yao, C. L., Bai, L., Wang, Q., ... & Li, H. B. (2019). Effects of TiC on the microstructure and formation of acicular ferrite in ferritic stainless steel. International Journal of Minerals, Metallurgy and Materials, 26(11), 1385-1395.
Mallaiah, G., Kumar, A., Reddy, P. R., & Reddy, G. M. (2012). Influence of grain refining elements on mechanical properties of AISI 430 ferritic stainless steel weldments–Taguchi approach. Materials & Design (1980-2015), 36, 443-450.
Prashar, G., & Vasudev, H. (2021). A comprehensive review on sustainable cold spray additive manufacturing: State of the art, challenges and future challenges. Journal of Cleaner Production, 310, 127606.
Prashar, G., & Vasudev, H. (2022). Structure–property correlation of plasma-sprayed Inconel625-Al2O3 bimodal composite coatings for high-temperature oxidation protection. Journal of Thermal Spray Technology, 31(8), 2385-2408.
Qu, H. P., Lang, Y. P., Yao, C. F., Chen, H. T., & Yang, C. Q. (2013). The effect of heat treatment on recrystallized microstructure, precipitation and ductility of hot-rolled Fe–Cr–Al–REM ferritic stainless steel sheets. Materials Science and Engineering: A, 562, 9-16.
Saeheaw, T. (2023). Comparison of different supervised machine learning algorithms for bead geometry prediction in GMAW process. Engineering Solid Mechanics, 11(2), 175-190.
Saeidi, K., Kevetkova, L., Lofaj, F., & Shen, Z. (2016). Novel ferritic stainless steel formed by laser melting from duplex stainless steel powder with advanced mechanical properties and high ductility. Materials Science and Engineering: A, 665, 59-65.
Sathiya, P., Aravindan, S., & Noorul Haq, A. (2007). Effect of friction welding parameters on mechanical and metallurgical properties of ferritic stainless steel. The International Journal of Advanced Manufacturing Technology, 31, 1076-1082.
Silva, C. C., Farias, J. P., Miranda, H. C., Guimaraes, R. F., Menezes, J. W., & Neto, M. A. (2008). Microstructural characterization of the HAZ in AISI 444 ferritic stainless steel welds. Materials characterization, 59(5), 528-533.
Singh, M., Goyat, R., & Panwar, R. (2023). Fundamental pillars for industry 4.0 development: implementation framework and challenges in manufacturing environment. The TQM Journal.
Tavares, S. S. M., De Souza, J. A., Herculano, L. F. G., De Abreu, H. F. G., & de Souza Jr, C. M. (2008). Microstructural, magnetic and mechanical property changes in an AISI 444 stainless steel aged in the 560 C to 800 C range. Materials characterization, 59(2), 112-116.
Vasudev, H., Prashar, G., Thakur, L., & Bansal, A. (2021). Electrochemical corrosion behavior and microstructural characterization of HVOF sprayed Inconel-718 coating on gray cast iron. Journal of Failure Analysis and Prevention, 21, 250-260.
Vasudev, H., Thakur, L., Singh, H., & Bansal, A. (2022). Effect of addition of Al2O3 on the high-temperature solid particle erosion behaviour of HVOF sprayed Inconel-718 coatings. Materials Today Communications, 30, 103017.
Verma, J., & Taiwade, R. V. (2017). Effect of welding processes and conditions on the microstructure, mechanical properties and corrosion resistance of duplex stainless steel weldments—A review. Journal of Manufacturing Processes, 25, 134-152.
Zhang, W., Jiang, W., Zhao, X., & Tu, S. T. (2018). Fatigue life of a dissimilar welded joint considering the weld residual stress: Experimental and finite element simulation. International Journal of Fatigue, 109, 182-190.