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Optimization of Process Parameters to Improve the Effective Area of Deposition in GMAW-Based Additive Manufacturing and its Mechanical and Microstructural Analysis

Ali Waqas, Xiansheng Qin, Jiangtao Xiong, Hongbo Wang, Chen Zheng

Year
2019
Citations
36
Access
Open access

Abstract

Additive manufacturing of metals using gas metal arc welding has an associated problem of variations of height in the onset and extinguishing parts of the weld bead. In this research, robot-assisted welding has been performed to investigate the problem, using AWS ER70S-6 low alloy steel welding electrode wire. After adjustment of welding parameters for a single-layer, single-pass, an optimal profile of welding energy was used to construct a thin wall which exhibited good forming characteristics with an effective area of approximately 97%. The resulting structure was ductile in nature with better tensile strength and microhardness as compared to the rolled steel available in industry with similar carbon content. The microstructure analysis revealed equiaxed grains in most parts of the structure having a fine grain size.

Keywords

Equiaxed crystalsWeldingMaterials scienceGas metal arc weldingMetallurgyIndentation hardnessMicrostructureUltimate tensile strengthHeat-affected zoneDeposition (geology)

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