Mechanical testing and microstructural analysis of wire laser beam directed energy deposited steel plates

Mechanical testing and microstructural analysis of wire laser beam directed energy deposited steel plates

Wire laser beam directed energy deposition, referred to herein as DED-LB, has emerged as a key technology in additive manufacturing, enabling the efficient and cost-effective production of large-scale components. By utilising a laser beam to melt and fuse metal wire, DED-LB enables precise control o...

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Bibliographic Details
Main Authors: Wenxuan Hong, Pinelopi Kyvelou, Ruizhi Zhang, Leroy Gardner
Format: Article
Language:English
Published: Elsevier 2025-07-01
Series:Materials & Design
Subjects:
Carbon steel
Wire laser beam directed energy deposition
Mechanical properties
Metal 3D printing
Microstructural analysis
Tensile coupon tests
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127525005611
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Summary:Wire laser beam directed energy deposition, referred to herein as DED-LB, has emerged as a key technology in additive manufacturing, enabling the efficient and cost-effective production of large-scale components. By utilising a laser beam to melt and fuse metal wire, DED-LB enables precise control over the deposition process, resulting in parts with a consistent and refined surface finish, which is attracting increasing interest from engineers. However, the limited understanding of the mechanical behaviour of DED-LB steels impedes their broader adoption in structural applications. To address this limitation, a comprehensive experimental study into the microstructure and mechanical properties of DED-LB ER70S-6 carbon steel has been conducted and is presented in this paper. The microstructure of the DED-LB material was examined by electron back-scatter diffraction (EBSD), which revealed a nearly isotropic crystallographic texture. The mechanical response was investigated by conducting a total of 33 tensile coupon tests, comprising 17 as-built and 16 machined specimens extracted in various orientations relative to the layer deposition direction from DED-LB steel plates of two nominal thicknesses. The tensile properties were found to be fairly consistent between the as-built and machined coupons, indicating only a limited influence from the surface undulations. Very minor material anisotropy was observed for the examined specimens, in line with the microstructural observations. In general, the examined DED-LB steel exhibited comparable values of Young's modulus, Poisson's ratio, mechanical strength and ductility to conventionally produced normal-strength steels, highlighting the significant potential of DED-LB for use in construction applications.
ISSN:0264-1275

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