KnE Engineering
ISSN: 2518-6841
The latest conference proceedings on all fields of engineering.
Optimization and Influence of GMAW Parameters for Weld Geometrical and Mechanical Properties Using the Taguchi Method and Variance Analysis
Published date: Jun 02 2020
Journal Title: KnE Engineering
Issue title: International Congress on Engineering — Engineering for Evolution
Pages: 781–794
Authors:
Abstract:
Gas metal arc welding is one of the arc fusion processes that is widely used in industry due to its high efficiency. The correct selection of the input parameters has direct influence on the weld quality and, with the control of those parameters, it is possible to reduce the amount of weld material, improve its properties and then increase the productivity of the process. This study intends to take a group of weld parameters and submit them to the optimization by the Taguchi Method and check the influence of those through a Variance Analysis (ANOVA). An L9 orthogonal array gathered three parameters (weld voltage, weld speed and weld torch angle) into three levels, then, with all combinations set and performed, the macrography and the transversal tensile strength test provided, respectively, the geometrical and the mechanical properties. The signal-to-noise ratios enable the optimization and the ANOVA provided the influence of the input parameters on the response parameters. The weld speed appeared as the most influent parameter for the weld geometry, contributing 63.54% to reinforcement, 66.36% to width and 66.94% to penetration, and the weld torch angle the most influent to the ultimate transversal tensile strength (41.39%). The optimum levels to the reinforcement are 22.4 [V], 400 [mm/min] and 30 [°], to the width 22.4 [V], 300 [mm/min], 0 [°], to the penetration 23.3 [V], 400 [mm/min], 0 [°] and, lastly, to the ultimate transversal tensile strength 24.1 [V], 200 [mm/min], 15 [°]. The Taguchi method showed to be suitable for this kind of problem and giving an efficient experiment design and good results.
Keywords: Taguchi method, Optimization, GMAW
References:
[1] AGHAKHANI, M.; MEHRDAD, E.; HAYATI, E. Parametric optimization of gas metal arc welding process by Taguchi method on weld dilution. International journal of modeling and optimization, 2011, 1.3: 216.
[2] IKRAM, Adeel. Induction heating assisted alternating current gas metal arc welding (IH- ACGMAW) for thick steel plate applications. 2018.
[3] S.-B. Chen, J. Wu, Intelligentized Methodology for Arc Welding Dynamical Processes, Lecture Notes in Electrical Engineering 29, © Springer-Verlag Berlin Heidelberg 2009
[4] Thakur, Ashish & Gebrelibanos, Hagos & Gabrey, Tadesse. (2019). Arc Welding Process Selection through a Quality and Costs. International Journal of Current Engineering and Technology. 9. 383-394. 10.14741/ijcet/v.9.3.6.
[5] R. K. Roy, Design of experiments using the Taguchi approach. 2001.
[6] J. P. Ross, “Taguchi Techniques for Quality Engineering”. New York, 1998.
[7] H. M. Wadsworth, “Handbook of Statistical Methods for Scientists and Engineers”. 1998.
[8] G. Sun, J. Fang, X. Tian, G. Li, e Q. Li, “Discrete robust optimization algorithm based on Taguchi method for structural crashworthiness design”, Elsevier, vol. 42, no 9, p. 4482–4492, 2015.
[9] Taguchi.G e S. Konishi, “Taguchi methods, orthogonal arrays and linear graphs: Tools for quality engineering”, Dearbom, American supplier institute, 1987.
[10] ACHEBO, Joseph I. Optimization of GMAW protocols and parameters for improving weld strength quality applying the Taguchi method. In: Proceedings of the world congress on engineering. 2011. p. 6-8.
[11] SARFCAR, Arunava; DAS, Santanu. Application of grey-based Taguchi method for optimising gas metal arc welding of stainless steels. Indian Welding Journal, 2011, 44.1: 37- 48.
[12] RIZVI, Saadat Ali; TEWARI, S. P.; ALI, Wajahat. Application of Taguchi technique to optimize the Process Parameters of MIG Wedging on IS2062 Steel. International Journal on Emerging Trends in Mechanical & Production Engineering [ISSN: 2581-4486 (online)], 2017, 1.1.
[13] YOUSEFIEH, M.; SHAMANIAN, M.; SAATCHI, A. Optimization of the pulsed current gas tungsten arc welding (PCGTAW) parameters for corrosion resistance of super duplex stainless steel (UNS S32760) welds using the Taguchi method. Journal of Alloys and Compounds, 2011, 509.3: 782-788.
[14] P. Yao, K. Zhou, H. Lin, Z. Xu, e S. Yue, “Exploration of Weld Bead Forming Rule during Double-Pulsed GMAW Process Based on Grey Relational Analysis”, Materials, vol. 12, no 22, p. 3662, nov. 2019.
[15] A. Waqas, X. Qin, J. Xiong, H. Wang, e C. Zheng, “Optimization of Process Parameters to Improve the Effective Area of Deposition in GMAW-Based Additive Manufacturing and its Mechanical and Microstructural Analysis”, Metals, vol. 9, no 7, p. 775, jul. 2019.
[16] Z. Zhang e J. Xue, “Profile Map of Weld Beads and Its Formation Mechanism in Gas Metal Arc Welding”, Metals, vol. 9, no 2, p. 146, jan. 2019.
[17] P. Yao, K. Zhou, e S. Huang, “Process and Parameter Optimization of the Double-Pulsed GMAW Process”, Metals, vol. 9, no 9, p. 1009, set. 2019.
[18] H. Kurt, M. Oduncuoglu, N. Yilmaz, E. Ergul, e R. Asmatulu, “A Comparative Study on the Effect of Welding Parameters of Austenitic Stainless Steels Using Artificial Neural Network and Taguchi Approaches with ANOVA Analysis”, Metals, vol. 8, no 5, p. 326, maio 2018.
[19] C. Schneider, C. Lisboa, R. Silva, e R. Lermen, “Optimizing the Parameters of TIGMIG/ MAG Hybrid Welding on the Geometry of Bead Welding Using the Taguchi Method”, Journal of Manufacturing and Materials Processing, vol. 1, no 2, p. 14, out. 2017.
[20] “Destructive Tests on Welds in Metallic Materials - Transverse Tensile Test (ISO 4136:2012)”. European Committee for Standardization, p. 18, 2012.
[21] “Metallic Materials - Tensile Testing - Part 1: Method of Test at Room Temperature (ISO 6892-1:2009)”, vol. 1, no 112. European Committee for Standardization, p. 65, 2010.