Microstructural Evolution and Resulting Mechanical Properties of Weld Joints upon Flux Cored Arc Welding and Post-Weld Heat Treatment

Abstract: The objective of this study is to determine the mechanism of the dramatic increase of impact toughness at low temperatures after post-weld heat treatment on weld joints. In this study, weld joints using two semi-automatic welding consumables were fabricated by flux cored arc welding with subsequent PWHT at 660°C for 65 min and 195 min, respectively. Tests of the tensile and yield strength, microhardness and impact toughness, were carried out. The microstructure was inspected by optical, scanning electron, and … Show more

“…Some amount of heat may be lost due to convection and radiation. Yu et al [11] performed arc welding experiments and determined the mechanical properties of post-weld heat treated weld joints by carrying out tests of the microhardness, tensile strength, impact toughness and yield strength. Abbasnejad et al [12] performed simulations of alloys and pure materials solidification.…”

Numerical Study of Temperature Distributions and Solidification Pattern in the Weld Pool of Arc Welded Plate

“…Some amount of heat may be lost due to convection and radiation. Yu et al [11] performed arc welding experiments and determined the mechanical properties of post-weld heat treated weld joints by carrying out tests of the microhardness, tensile strength, impact toughness and yield strength. Abbasnejad et al [12] performed simulations of alloys and pure materials solidification.…”

Numerical Study of Temperature Distributions and Solidification Pattern in the Weld Pool of Arc Welded Plate