Relation between Different Process Parameters in Gas Metal Arc Welding

Jump To References Section

Authors

  • Industrial Design Department NIT, Rourkela ,IN
  • Metallurgical and Material Engineering Department, NIT, Rourkekla ,IN
  • Industrial Design Department, NIT, Rourkela ,IN

DOI:

https://doi.org/10.22486/iwj/2019/v52/i2/181779

Keywords:

Welding, Gas Metal Arc Welding, GMAW, Process Parameters, Material Thickness.

Abstract

In this paper, relation between different process parameters has been shown. Mainly six variables were taken which are types of welding, types of material, wire type, wire diameter, types of gas used, CTWD, polarity, etc.... Here types of welding process took as the means only gas meal arc welding has been shown. About fifteen types of welding processes were considered by varying the above given variables. By changing those variables the variation in wire feed speed (WFS) and voltage by changing material thickness has been displayed in the tables. The relation between workpiece thickness with WFS and also with voltage was presented through different graphs in all the fifteen processes of welding.

Downloads

Published

2019-04-01

Issue

Section

Articles

 

References

Huissoon JP, Strauss DL, Rempel JN, Bedi S and Kerr HW (1994); Multi-variable control of robotic gas metal arc welding, Journal of Materials Processing Technology, 43(1), pp. 1-12.

Murugan N and Parmar RS (1994); Effects of MIG process parameters on the geometry of the bead in the automatic surfacing of stain less steel, Journal of Materials Processing Technology, 41(4), pp. 381-398.

Abbasi K, Alam S and Khan MI (2012); An experimental study on the effect of MIG welding parameters on the weld-bead shape characteristics, IRACST– Engineering Science and Technology: An International Journal (ESTIJ), 2, pp. 250-268.

Moon HS and Na SJ (1996); A neuro-fuzzy approach to select welding conditions for welding quality improvement in horizontal fillet welding, Journal of Manufacturing Systems, 15(6), pp. 392-403.

Srivastava S and Garg RK (2017); Process parameter optimization of gas metal arc welding on IS: 2062 mild steel using response surface methodology, Journal of Manufacturing Processes, 25, pp. 296-305.

Anca A, Cardana A, Risso J and Fachinotto VD (2011); Finite element modeling of welding processes, Applied Mathematical Modelling, 35(2), pp. 688-707.

Sapakal SV and Telsang MT (2012); Parametric optimization of MIG welding using Taguchi design method, International Journal of Advanced Engineering Research and Study, 1, pp. 28-30.

Haragopal G, Ravindra Reddy PVR, Mohan Reddy GC and Subrahmanyam J V (2011); Parametric design for MIG welding of Al-65032 alloy using Taguchi Technique, Journal of Scientific and Industrial Research, 70, pp. 844-851.

Pal A (2015); MIG welding parametric optimization using Taguchi's orthogonal array and analysis of variance, International Journal of Research Review in Engineering Science & Technology, 4.

Lincoln Electric (USA)- Cleveland- US HQ, http://www.lincolnelectric.com/en-us/Pages/default.aspx