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Heat-induced effects and cracking susceptibility in gas tungsten arc welding of Inconel 939 superalloy using Inconel 625 filler metal

Amir Hossein Jafarzadeh, Mohammad Saeed Shahriari, Rouholah Ashiri

2025Journal of Materials Research and Technology7 citationsDOIOpen Access PDF

Abstract

This study examines the effect of heat input on crack formation in the heat-affected zone (HAZ) during gas tungsten arc welding (GTAW) repair of Inconel 939 superalloy. The workpiece, which had been in service for 100,000 hours before requiring repair, underwent pre-welding heat treatment to enhance weldability. Repair welding was conducted using four different heat inputs. The results revealed that heat inputs below 0.298 kJ/mm led to lack of fusion at the weld pool root. Additionally, Inconel 939 exhibited high sensitivity to heat-affected zone (HAZ) cracking, with most cracks initiating in the partial melting zone (PMZ). Alloying element segregation in this region formed low melting point phases, creating a liquid film along crack boundaries confirming liquation cracking as the dominant mechanism. A direct correlation was established between heat input and liquation crack formation in the HAZ. Higher heat inputs increased both HAZ hardness and crack density. This study aims to optimize the gas tungsten arc welding (GTAW) process for Inconel 939 by identifying the maximum allowable heat input that minimizes HAZ defects while ensuring fusion integrity.

Topics & Concepts

Materials scienceInconelInconel 625SuperalloyMetallurgyFiller metalWeldingGas tungsten arc weldingCrackingTungstenGas metal arc weldingArc weldingComposite materialAlloyHigh Temperature Alloys and CreepWelding Techniques and Residual StressesHydrogen embrittlement and corrosion behaviors in metals