Development of High Heat Input Welding Offshore Steel as Normalized Condition

Deng, Wei; Qin, Xiaomei

doi:10.1007/978-3-319-48767-0_60

Cited by 2 publications

(1 citation statement)

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“…High heat input methods such as submerged arc welding (SAW) and electro-gas welding (EGW) have been widely used in the welding of ship plate steels with various kinds of strength grades because of the higher manufacturing efficiency. Admittedly, when using conventional HSLA steels, there are problems of worse microstructures and severe decreases in the heat-affected zones obtained by high heat input methods [4][5][6][7]. With regards to the conflict between efficiency and mechanical properties, optimized and modified thick-walled steels for high heat input welding were developed.…”

Section: Introductionmentioning

confidence: 99%

Overlapping Features and Microstructures of Coarse Grain Heat-Affected Zones in Swing Arc Narrow Gap GMA Welded EH40 Grade Steels

Hu²,

Dong

et al. 2022

Crystals

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Swing arc narrow gap GMA welding experiments were carried out with a Box–Behnken response surface design. Weld metal and heat-affected sizes were measured from the joints obtained, and an ANOVA was performed to obtain well-fitting models for definition of the heat-affected length. Overlapping patterns and microstructures were analyzed and observed in zones within the heat-affected length through the thickness direction. In addition, thermal processes in typical zones of HAZs were calculated by FEM and analyzed to explain the patterns in the typical coarse grain heat-affected zones (CG-HAZs) with thermal simulated microstructures attached. It was realized that a single pass could only be confused with an austenitized process by two passes. The coarse grain heat-affected zone of a single pass could be divided into an unaltered coarse grain heat-affected zone (UACG-HAZ), a supercritically reheated coarse grain heat-affected zone (SCRCG-HAZ) and an intercritically reheated heat-affected zone (IRCG-HAZ). It is likely that there would be an intercritically reheated UACG-HAZ upon the UACG-HAZ. The microstructures in the CG-HAZs and the UACG-HAZ were mainly lath bainite and a little acicular ferrite; the microstructures in the SCRCG-HAZ were short lath bainite, granular bainite and acicular ferrite and the microstructures in the IRCG-HAZ were massive textures and secondary austenite decomposition products. The cooling times in the typical bainite transformation procedures were similar to one another in a secondary austenitized process and significantly longer than those in a single austenitized thermal cycle, which caused similar patterns in reheated CG-HAZs and an increase in acicular ferrite compared to CG-HAZs. The prior austenite grain sizes caused differences among the reheated CG-HAZs.

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Section: Introductionmentioning

confidence: 99%