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Year 2022, Volume: 6 Issue: 3, 221 - 225, 03.10.2022
https://doi.org/10.30939/ijastech..1102029

Abstract

References

  • [1] Ngo, Manh Dung, et al. "Development of digital gas metal arc welding system." Journal of Materials Processing Technology 2007; 189.1-3:384-391.
  • [2] Mahgoub, Ahmed, et al. "Effect of welding parameters on the me-chanical and metallurgical properties of friction stir spot welding of copper lap joint." Arabian Journal for Science and Engineer-ing 2019;44.2:1283-1292.
  • [3] Hong, Kyung-Min, and Yung C. Shin. "Prospects of laser welding technology in the automotive industry: A review." Journal of Mate-rials Processing Technology 2017;245:46-69.
  • [4] Srivastava, Ashok K., and Ashutosh Sharma. "Advances in joining and welding technologies for automotive and electronic applica-tions." American Journal of Materials Engineering and Technolo-gy 2017;5.1:7-13.
  • [5] Zhao, Yong, et al. "Effect of shielding gas on the metal transfer and weld morphology in pulsed current MAG welding of carbon steel." Journal of Materials Processing Technology 262 (2018): 382-391.
  • [6] Pan, Qinglong, et al. "Effect of shielding gas on laser–MAG arc hybrid welding results of thick high-tensile-strength steel plates." Welding in the World 2016;60.4:653-664.
  • [7] Tsuyama, Tadahisa, Makoto Yuda, and Kiyomichi Nakai. "Effects of hot wire on mechanical properties of weld metal using gas-shielded arc welding with CO2 gas." Welding in the World 2014; 58.1:77-83.
  • [8] Sahasrabudhe, Onkar S., and D. N. Raut. "Effect of heat source positioning on hybrid TIG-MAG arc welding process." Materials Today: Proceedings 2018;5.9:18518-18526.
  • [9] Shao, Qing, et al. "Multi-objective optimization of gas metal arc welding parameters and sequences for low-carbon steel (Q345D) T-joints." Journal of Iron and Steel Research International 2017;24.5: 544-555.
  • [10] Srivastava, Shekhar, and R. K. Garg. "Process parameter optimization of gas metal arc welding on IS: 2062 mild steel using response surface methodology." Journal of Manufacturing Processes 2017;25:296-305.
  • [11] Xu, Yanling, et al. "Welding seam tracking in robotic gas metal arc welding." Journal of Materials Processing Technology 2017;248: 18-30.
  • [12] Dos Santos, Emanuel BF, Rob Pistor, and Adrian P. Gerlich. "High frequency pulsed gas metal arc welding (GMAW-P): The metal beam process." Manufacturing letters 2017;11:1-4.
  • [13] Ghosh, Nabendu, et al. "Parametric optimization of gas metal Arc welding process by using Taguchi method on ferritic stainless steel AISI409." Materials Today: Proceedings 2017;4.2:2213-2221.
  • [14] Ibrahim, Izzatul Aini, et al. "The Effect of Gas Metal Arc Welding (GMAW) processes on different welding parameters." Procedia Engineering 2012;41:1502-1506.
  • [15] Kumar, Sudhir, and Rajender Singh. "Optimization of process parameters of metal inert gas welding with preheating on AISI 1018 mild steel using grey based Taguchi method." Measurement 2019;148:106924.
  • [16] Moravec, Jaromír, et al. "Assessment of the Heat Input Effect on the Distribution of Temperature Cycles in the HAZ of S460MC Welds in MAG Welding." Metals 11.12 (2021): 1954.
  • [17] Şimşek, Esin Tuğba, and Ahmet AKKUŞ. "Investigation of the Effect of Protective Gas Composition on Welding Quality in Mag Welding by Tensile Test." Avrupa Bilim ve Teknoloji Dergisi 32: 531-535.
  • [18] DIN 8551-1:1976-06 “Edge preparation for welding; edge forms on steel; gas welding, manual arc welding and gas-shielded arc welding.” German Institute for Standardisation (Deutsches Institut für Normung) 2013.

Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding

Year 2022, Volume: 6 Issue: 3, 221 - 225, 03.10.2022
https://doi.org/10.30939/ijastech..1102029

Abstract

In this study, the effect of the changes in welding parameters on the tensile strength, which is one of the mechanical properties of the steels, was investigated in the robotic gas arc welding method applied to St52 and S460MC steels, which are widely used in the industry. As a result of the experiments carried out within the scope of the study, it was aimed to determine the optimum parameter values for the MAG welding method. St52 and S460MC materials were used in the experiments. An experimental design was created in order to carry out the experiments in the most accurate way. Parameter val-ues are placed in this created experimental design. As a result of the experiments per-formed according to the created the experimental design, the optimum parameter val-ues were examined, welding processes were applied with the selected values, and the improvements in the welding quality were determined by subjecting the welded samples to the tensile test. The optimum welding parameters providing the best mechanical properties were 25 V, 7 mm/sec and 13 mm/sec for the arc voltage, wire feed speed and welding speed, respectively.

References

  • [1] Ngo, Manh Dung, et al. "Development of digital gas metal arc welding system." Journal of Materials Processing Technology 2007; 189.1-3:384-391.
  • [2] Mahgoub, Ahmed, et al. "Effect of welding parameters on the me-chanical and metallurgical properties of friction stir spot welding of copper lap joint." Arabian Journal for Science and Engineer-ing 2019;44.2:1283-1292.
  • [3] Hong, Kyung-Min, and Yung C. Shin. "Prospects of laser welding technology in the automotive industry: A review." Journal of Mate-rials Processing Technology 2017;245:46-69.
  • [4] Srivastava, Ashok K., and Ashutosh Sharma. "Advances in joining and welding technologies for automotive and electronic applica-tions." American Journal of Materials Engineering and Technolo-gy 2017;5.1:7-13.
  • [5] Zhao, Yong, et al. "Effect of shielding gas on the metal transfer and weld morphology in pulsed current MAG welding of carbon steel." Journal of Materials Processing Technology 262 (2018): 382-391.
  • [6] Pan, Qinglong, et al. "Effect of shielding gas on laser–MAG arc hybrid welding results of thick high-tensile-strength steel plates." Welding in the World 2016;60.4:653-664.
  • [7] Tsuyama, Tadahisa, Makoto Yuda, and Kiyomichi Nakai. "Effects of hot wire on mechanical properties of weld metal using gas-shielded arc welding with CO2 gas." Welding in the World 2014; 58.1:77-83.
  • [8] Sahasrabudhe, Onkar S., and D. N. Raut. "Effect of heat source positioning on hybrid TIG-MAG arc welding process." Materials Today: Proceedings 2018;5.9:18518-18526.
  • [9] Shao, Qing, et al. "Multi-objective optimization of gas metal arc welding parameters and sequences for low-carbon steel (Q345D) T-joints." Journal of Iron and Steel Research International 2017;24.5: 544-555.
  • [10] Srivastava, Shekhar, and R. K. Garg. "Process parameter optimization of gas metal arc welding on IS: 2062 mild steel using response surface methodology." Journal of Manufacturing Processes 2017;25:296-305.
  • [11] Xu, Yanling, et al. "Welding seam tracking in robotic gas metal arc welding." Journal of Materials Processing Technology 2017;248: 18-30.
  • [12] Dos Santos, Emanuel BF, Rob Pistor, and Adrian P. Gerlich. "High frequency pulsed gas metal arc welding (GMAW-P): The metal beam process." Manufacturing letters 2017;11:1-4.
  • [13] Ghosh, Nabendu, et al. "Parametric optimization of gas metal Arc welding process by using Taguchi method on ferritic stainless steel AISI409." Materials Today: Proceedings 2017;4.2:2213-2221.
  • [14] Ibrahim, Izzatul Aini, et al. "The Effect of Gas Metal Arc Welding (GMAW) processes on different welding parameters." Procedia Engineering 2012;41:1502-1506.
  • [15] Kumar, Sudhir, and Rajender Singh. "Optimization of process parameters of metal inert gas welding with preheating on AISI 1018 mild steel using grey based Taguchi method." Measurement 2019;148:106924.
  • [16] Moravec, Jaromír, et al. "Assessment of the Heat Input Effect on the Distribution of Temperature Cycles in the HAZ of S460MC Welds in MAG Welding." Metals 11.12 (2021): 1954.
  • [17] Şimşek, Esin Tuğba, and Ahmet AKKUŞ. "Investigation of the Effect of Protective Gas Composition on Welding Quality in Mag Welding by Tensile Test." Avrupa Bilim ve Teknoloji Dergisi 32: 531-535.
  • [18] DIN 8551-1:1976-06 “Edge preparation for welding; edge forms on steel; gas welding, manual arc welding and gas-shielded arc welding.” German Institute for Standardisation (Deutsches Institut für Normung) 2013.
There are 18 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Articles
Authors

Yiğit Okuroğulları 0000-0002-6314-0399

Oktay Çavuşoğlu 0000-0002-6314-0399

Mümin Tutar 0000-0002-7286-3433

Hakan Aydın 0000-0001-7364-6281

Publication Date October 3, 2022
Submission Date April 12, 2022
Acceptance Date May 20, 2022
Published in Issue Year 2022 Volume: 6 Issue: 3

Cite

APA Okuroğulları, Y., Çavuşoğlu, O., Tutar, M., Aydın, H. (2022). Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding. International Journal of Automotive Science And Technology, 6(3), 221-225. https://doi.org/10.30939/ijastech..1102029
AMA Okuroğulları Y, Çavuşoğlu O, Tutar M, Aydın H. Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding. IJASTECH. October 2022;6(3):221-225. doi:10.30939/ijastech.1102029
Chicago Okuroğulları, Yiğit, Oktay Çavuşoğlu, Mümin Tutar, and Hakan Aydın. “Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding”. International Journal of Automotive Science And Technology 6, no. 3 (October 2022): 221-25. https://doi.org/10.30939/ijastech. 1102029.
EndNote Okuroğulları Y, Çavuşoğlu O, Tutar M, Aydın H (October 1, 2022) Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding. International Journal of Automotive Science And Technology 6 3 221–225.
IEEE Y. Okuroğulları, O. Çavuşoğlu, M. Tutar, and H. Aydın, “Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding”, IJASTECH, vol. 6, no. 3, pp. 221–225, 2022, doi: 10.30939/ijastech..1102029.
ISNAD Okuroğulları, Yiğit et al. “Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding”. International Journal of Automotive Science And Technology 6/3 (October 2022), 221-225. https://doi.org/10.30939/ijastech. 1102029.
JAMA Okuroğulları Y, Çavuşoğlu O, Tutar M, Aydın H. Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding. IJASTECH. 2022;6:221–225.
MLA Okuroğulları, Yiğit et al. “Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding”. International Journal of Automotive Science And Technology, vol. 6, no. 3, 2022, pp. 221-5, doi:10.30939/ijastech. 1102029.
Vancouver Okuroğulları Y, Çavuşoğlu O, Tutar M, Aydın H. Investigation of the Mechanical Properties of St52 and S460MC Steels by Gas Welding. IJASTECH. 2022;6(3):221-5.


International Journal of Automotive Science and Technology (IJASTECH) is published by Society of Automotive Engineers Turkey

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