Investigation on the Microstructure and Mechanical Properties of ASTM A131 Steel Manufactured by Different Welding Methods

1. Sirisatien T., Mahabunphachai S. and Sojiphan K, Effect of submerged arc welding process with one-side one-pass welding technique on distortion behavior of shipbuilding steel plate ASTM A131 grade A, Materials Today: Proceedings 5 (2018) 9543–9551.10.1016/j.matpr.2017.10.136 Search in Google Scholar

2. Turan T., Kocal T. and Unlugencoglu K., Welding Technologies in Shipbuilding Industry, The Online Journal of Science and Technology 1 (2011) 1-9. Search in Google Scholar

3. McPherson, N. A., Welding issues for ship structures, Journal of Marine Engineering and Technology 9 (2010) 31-41.10.1080/20464177.2010.11020238 Search in Google Scholar

4. Cevik B., Analysis of Welding Groove Configurations on Strength of S275 Structural Steel Welded by FCAW, Journal of Polytechnic 21 (2018) 489-495.10.2339/politeknik.389642 Search in Google Scholar

5. Delzendehrooy F., Akhavan-Safar A., Barbosa A. O., Beygi R., Cardoso D., Carbas R. J. C, Marques E.A.S. and da Silva L.F.M., A comprehensive review on structural joining techniques in the marine industry, Composite Structures 289 (2022) 115490.10.1016/j.compstruct.2022.115490 Search in Google Scholar

6. Kuril A. A., Ram G. D. J. and Bakshi S. R., Microstructure and mechanical properties of keyhole plasma arc welded dual phase steel DP600, Journal of Materials Processing Technology 270 (2019) 28–36.10.1016/j.jmatprotec.2019.02.018 Search in Google Scholar

7. Sarin P. and Sharma V. K., Influence of Various Process Parameters on Strength of Gas Metal Arc Welded Joints, Influence of Various Process Parameters on Strength of Gas Metal Arc Welded Joints, International Conference on Cutting Edge Technological. Challenges in Mechanical Engineering, 2017; International Advanced Research Journal in Science, Engineering and Technology 4, 3, 2017. Search in Google Scholar

8. Asibeluo I. S. and Emifoniye E., Effect of Arc Welding Current on the Mechanical Properties of A36 Carbon Steel Weld Joints, International Journal of Mechanical Engineering 2 (2015) 28-37.10.14445/23488360/IJME-V2I9P113 Search in Google Scholar

9. Singh G., Kumar D. and Singh A., Influence of current on microstructure and hardness of butt welding aluminium AA6082 using GTAW process, The International Journal of Mechanical Engineering Research and Technology 3 (2013) 143-146. Search in Google Scholar

10. Jorge J. C. F., Monteiro J. L. D., Gomes A. J. C., Bott I. S., de Souza L. F. G., Mendes M. C. and Araújo L. S., Influence of welding procedure and PWHT on HSLA steel weld metals, Journal of Materials Research and Technology 8 (2019) 561-571.10.1016/j.jmrt.2018.05.007 Search in Google Scholar

11. Nathan S. R., Balasubramanian V., Malarvizhi S. and Rao A. G., Effect of welding processes on mechanical and microstructural characteristics of high strength low alloy naval grade steel joints, Defence Technology 11 (2015) 308-317.10.1016/j.dt.2015.06.001 Search in Google Scholar

12. Muthukumaran N., Kathiresan G., Shree Raam M. N., Chandru G., Dineshkumar S., Chiranjeevi K., Rajkumar S., Manikandan M. and Arulmurugan B., Comparative studies on weldability and mechanical characteristics ofsemi- killed steel using different arc welding technique, Materials Today: Proceedings 62 (2022) 5471-5476.10.1016/j.matpr.2022.04.146 Search in Google Scholar

13. Bai Y., Chaudhari A. and Wang H., Investigation on the microstructure and machinability of ASTM A131 steel manufactured by directed energy deposition, Journal of Materials Processing Technology 276 (2020) 116410.10.1016/j.jmatprotec.2019.116410 Search in Google Scholar

14. Sekban D. M., Aktaber S. M. and Purcek G., Friction Stir Welding of Low-Carbon Shipbuilding Steel Plates: Microstructure, Mechanical Properties and Corrosion Behavior, Metallurgical and Materials Transactions A 50 (2019)4127-4140.10.1007/s11661-019-05324-8 Search in Google Scholar

15. Senthilkumar P., Exploration of Tensile Properties of Low Carbon Steel Welded Joint, International Journal of Scientific Research in Science, Engineering and Technology 8 (2021) 49-55.10.32628/IJSRSET218413 Search in Google Scholar

16. Boumerzoug Z., Derfouf C. and Baudin T., Effect of Welding on Microstructure and Mechanical Properties of an Industrial Low Carbon Steel, Engineering 2 (2010) 502-506.10.4236/eng.2010.27066 Search in Google Scholar

17. Gultekin M., 2019, Ergitmeli Kaynak Yöntemleriyle Kaynatılan Grade A Sacının İmalat Aşamasında Kaynak Bölgesinin Korozif Karakteristiği, M.Sc thesis, Gazi University. Search in Google Scholar

18. Imdat K, Kaya T. and Kahraman N., An investigation on joinability of Grade A ship steel through shielded metal arc welding method in underwater and atmospheric conditions, Journal of Polytechnic 21 (2018) 543-552. Search in Google Scholar

19. Bodude M. A. and Momohjimoh I., Studies on Effects of Welding Parameters on the Mechanical Properties of Welded Low-Carbon Steel, Journal of Minerals and Materials Characterization and Engineering 3 (2015) 142-153.10.4236/jmmce.2015.33017 Search in Google Scholar

20. Joarder A., Saha S. C. and Ghose A. K., Study of submerged arc weld metal and heat-affected zone microstructures of a plain carbon steel, Welding Journal 70 (1991)141-146.10.22486/iwj.v23i3.148330 Search in Google Scholar

21. Enomoto M., K. Wu K. M., Murakami T. and Nanba S., Three dimensional observation of ferrite plain low carbon steel weld, ISIJ International 45 (2005)756-762.10.2355/isijinternational.45.756 Search in Google Scholar

22. DuPont J. N., Microstructural evolution and high temperature failure of ferritic to austenitic dissimilar welds, International Materials Reviews 57 (2012) 3-28.10.1179/1743280412Y.0000000006 Search in Google Scholar

23. Kumar R. I., Arya H. K. and Saxena, R., Experimental Determination of Cooling Rate and its Effect on Microhardness in Submerged Arc Welding of Mild Steel Plate (Grade c-25 as per IS 1570), Journal of Material Sciences and Engineering 3 (2014) 1-4.10.4172/2169-0022.1000138 Search in Google Scholar

24. Gharibshahiyan E., Raouf A. H., Parvin N. and Rahimian M., The effect of microstructure on hardness and toughness of low carbon welded steel using inert gas welding, Materials and Design 32 (2011) 2042-2048.10.1016/j.matdes.2010.11.056 Search in Google Scholar

25. Ahangaryan M., Jafarzadegan M. and Taghiabadi R., Heat Input Effect on Microstructure and Mechanical Properties in Shielded Metal Arc Welding of Dissimilar AISI 316L/St-37 Steel, International Journal of ISSI 17 (2020) 1-10. Search in Google Scholar

26. Gural A., Bostan B. and Ozdemir A. T., Heat Treatment in Two Phase Region and its Effect on Welding of a Low Carbon Steel, Materials and Design 28 (2007) 897-903.10.1016/j.matdes.2005.10.005 Search in Google Scholar

27. Sun Y. L., Hamelin C. J., Vasileiou A. N., Xiong Q., Flint T. F., Obasi G., Francis J. A and Smith M. C., Effects of dilution on the hardness and residual stresses in multipass steel weldments, International Journal of Pressure Vessels and Piping 187 (2020) 104154.10.1016/j.ijpvp.2020.104154 Search in Google Scholar

28. Sawanishi C., Matsuda H., Tagawa T., Ikeda R and Tsutsumi S., Influence of shape of weld toe and hardness of weld metal on fatigue properties in GMA welded fillet lap joint of UHSS sheet, Welding International 34 (2020) 375-387.10.1080/09507116.2021.1941631 Search in Google Scholar

29. Nitsche A., Solidification phenomena in creep resistant 9Cr weld metals and their implications on mechanical properties, Welding in the World 64 (2020) 633–645.10.1007/s40194-020-00868-5 Search in Google Scholar

30. Kumar T. V., Karthick K., Dhanushkaran K and Jagadeesh D., Optimising the parameters and increasing the hardness of duplex stainless steel by annealing process in valve manufacturing industries, IOP Conference Series: Materials Science Engineering 954 (2020) 012005.10.1088/1757-899X/954/1/012005 Search in Google Scholar