Effect of Heat Input on the Microstructure and Mechanical Properties of Low Alloy Ultra‐High Strength Structural Steel Welded Joint

Wen, Changfei; Wang, Zhaodong; Deng, Xiaomin; Wang, Guodong; Misra, R.D.K.

doi:10.1002/srin.201700500

Cited by 39 publications

(27 citation statements)

References 42 publications

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“…In this work, all these factors, dilution, filler metal, and the shielding gas, had influence on the properties of weld metal, due to their effect on the chemical composition and microstructure. Indeed, while the increase in carbon content as consequence of higher dilution is a contributing factor for obtaining low impact toughness [40,57], the addition of titanium [35,[57][58][59][60][61][62][63][64] promoted the formation of small inclusions ( Fig. 13) and refined the microstructure (Fig.…”

Section: Mechanical and Microstructural Properties Of The Welded Jointmentioning

confidence: 99%

Influence of rotation frequency and rotation diameter on mechanical properties and microstructure of weld metal produced by MCAW-RE

Silveira

Filho

Costa

et al. 2020

Int J Adv Manuf Technol

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The MCAW process with rotating electrode (MCAW-RE) is a variation of the conventional gas metal arc welding process, which a metal-cored wire is submitted to a rotational movement along a pre-established diameter. This process enhances narrow gap welding, since the rotational motion of the electrode allows the electric arc to reach peripheral regions of the groove, preventing lack of fusion on the sidewall. As a result, reduced costs and superior productivity compared with the conventional GMAW process are obtained. The limited literature about this process is focused on the operational characteristics, and works studying the mechanical properties are not available. Thus, this work evaluates the mechanical and microstructural properties of weld metals obtained by the MCAW-RE process in order to allow a decision about its technical feasibility to replace the GMAW process in industry. Initially, beads on plate weld tests were performed with varying rotation frequency and rotation diameter, in order to determine the parameters to be used in welded joints. High-strength steel weld metals were obtained by welding performed in steel plates with dimensions of 500 × 300 × 10 mm. Mechanical tests and metallographic examination were carried out in samples removed transversally to the weld bead. The results showed that the impact toughness of the weld metals can achieve the requirements for several industrial applications. The results showed that the GMAW process with rotating electrode-cored wire has a high potential for replacement of the GMAW in industrial applications.

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Section: Mechanical and Microstructural Properties Of The Welded Jointmentioning

confidence: 99%

Influence of rotation frequency and rotation diameter on mechanical properties and microstructure of weld metal produced by MCAW-RE

Silveira

Filho

Costa

et al. 2020

Int J Adv Manuf Technol

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show abstract

“…However, performing high-speed welding using aluminum materials is challenging, owing to the physical properties of aluminum. For example, the electrical conductivity of aluminum is 62% IACS (International Annealed Copper Standard), which is approximately 6 times that of low-carbon steel, whereas its thermal conductivity is 222 [W/(m•K)] at 25 • C, which is approximately 5 times that of low-carbon steel, making high-speed welding of aluminum more difficult [6][7][8][9]. Nonetheless, the continuous development of welding techniques has been accompanied by improvements in high-speed aluminum welding techniques.…”

Section: Introductionmentioning

confidence: 99%

Stability and Heat Input Controllability of Two Different Modulations for Double-Pulse MIG Welding

Xue

Huang

et al. 2019

Applied Sciences

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Aluminum alloy welding frequently experiences difficulties such as heat input control, poor weld formation, and susceptibility to pore generation. We compared the use of two different modulations for double-pulse metal inert gas (MIG) welding to reduce the heat input required to generate oscillations in the weld pool. The stabilities of rectangular wave-modulated and trapezoidal wave-modulated double-pulse MIG welding (DP-MIG and TP-MIG) were analyzed by examining their welding processes and weld profiles. We found that the transitional pulse in TP-MIG welding results in smoother current transitions, softer welding arc sounds, and a highly uniform fish-scale pattern. Therefore, TP-MIG welding is more stable than DP-MIG welding. The effects of these double-pulse modulation schemes on welding input energy are presented. We propose methods for reducing welding input energy by varying the number of pulses or the pulse base time of low-energy pulse train while keeping the welding current and welding arc stable and unchanged. Compared to DP-MIG welding, TP-MIG welding reduces the input energy by 12% and produces finer grain sizes, which increases weld hardness. Therefore, TP-MIG welding offers a new approach for heat input control in DP-MIG welding of aluminum alloys. The results of this work are significant for aluminum alloy welding.

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“…Fuel efficiency, safety, and environmental impact are key issues for the automotive industry, which is the driving force for the use of low-alloy ultrahigh-strength steel (LAUHSS) because of its beneficial combination of high strength/weight ratio and good toughness (Refs. 1,2). In general, LAUHSS is used in the quenched and tempered conditions (Refs.…”

Section: Introductionmentioning

confidence: 99%

Laser Heat Treatment of Low-Alloy Ultrahigh-Strength Steel Laser-Welded Joints

2019

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Effect of Heat Input on the Microstructure and Mechanical Properties of Low Alloy Ultra‐High Strength Structural Steel Welded Joint

Cited by 39 publications

References 42 publications

Influence of rotation frequency and rotation diameter on mechanical properties and microstructure of weld metal produced by MCAW-RE

Influence of rotation frequency and rotation diameter on mechanical properties and microstructure of weld metal produced by MCAW-RE

Stability and Heat Input Controllability of Two Different Modulations for Double-Pulse MIG Welding

Laser Heat Treatment of Low-Alloy Ultrahigh-Strength Steel Laser-Welded Joints

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