Investigating the effects of welding process on residual stresses, microstructure and mechanical properties in HSLA steel welds

Alipooramirabad, H; Paradowska, AM; Ghomashchi, R; Reid, M

Investigating the effects of welding process on residual stresses, microstructure and mechanical properties in HSLA steel welds

Date

2017-08-01

Authors

Publisher

Elsevier

Abstract

One of the important steps in the design and fabrication of welded structures is the selection of the welding process and the filler consumables. This is because these two factors control the mechanics of thermal distribution and the chemistry of the welded join, which in turn affect weld integrity through the resulting microstructure and residual stresses. The present study employed neutron diffraction to investigate the effects of welding process on the residual stresses in high-strength low-alloy steel weld joints made by SMAW (shielded metal arc welding) and combined MSAW (modified short arc welding) and FCAW (flux cored arc welding) processes. A significantly higher level of residual stress was found in the MASW + FCAW combination which was shown to be in line with the microstructural and mechanical properties. Higher levels of residual stresses may be related to the formation of bainite and Widmanstätten ferrite in the weld metal and HAZ of the combined MSAW and FCAW processes. © 2017 The Society of Manufacturing Engineers. Published by Elsevier Ltd.

Keywords

Welding, Mechanical properties, Microstructure, Residual stresses, Neutron diffraction, Steels

Citation

Alipooramirabad, H., Paradowska, A., Ghomashchi, R., & Reid, M. (2017). Investigating the effects of welding process on residual stresses, microstructure and mechanical properties in HSLA steel welds. Journal of Manufacturing Processes, 28(1), 70-81, doi:10.1016/j.jmapro.2017.04.030