Selective laser melting (SLM) of AISI 316L—impact of laser power, layer thickness, and hatch spacing on roughness, density, and microhardness at constant input energy density
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In this paper, a workpiece was manufactured by selective laser melting (SLM) with varying laser power, layer thickness, and hatch spacing, and it was found that the microhardness of an additively manufactured material correlates with its relative density.Abstract:
In selective laser melting (SLM) the variation of process parameters significantly impacts the resulting workpiece characteristics. In this study, AISI 316L was manufactured by SLM with varying laser power, layer thickness, and hatch spacing. Contrary to most studies, the input energy density was kept constant for all variations by adjusting the scanning speed. The varied parameters were evaluated at two different input energy densities. The investigations reveal that a constant energy density with varying laser parameters results into considerable differences of the workpieces’ roughness, density, and microhardness. The density and the microhardness of the manufactured components can be improved by selecting appropriate parameters of the laser power, the layer thickness, and the hatch spacing. For this reason, the input energy density alone is no indicator for the resulting workpiece characteristics, but rather the ratio of scanning speed, layer thickness, or hatch spacing to laser power. Furthermore, it was found that the microhardness of an additively manufactured material correlates with its relative density. In the parameter study presented in this paper, relative densities of the additively manufactured workpieces of up to 99.9% were achieved.read more
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References
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Investigation into the effect of process parameters on microstructural and physical properties of 316L stainless steel parts by selective laser melting
TL;DR: In this paper, the effect of laser energy density on 316L stainless steel properties was investigated and the impact of point distance and exposure time on porosity, surface finish, microstructure, density and hardness was evaluated.
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Balling behavior of stainless steel and nickel powder during selective laser melting process
TL;DR: In this article, a detailed investigation into the balling behavior of selective laser melting of stainless steel and pure nickel powder was conducted, and it was found that the SLM balling phenomenon can be divided into two types generally: the ellipsoidal balls with dimension of about 500μm and the spherical balls with dimensions of about 10μm.
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Progress in additive manufacturing on new materials: A review
TL;DR: In this article, a review of recent efforts and advances in additive manufacturing (AM) on different types of new materials is presented and reviewed, focusing on the material design of cladding layers, the choice of feedstock materials, the metallurgical behavior and synthesis principle during the AM process, and the resulted microstructures and properties, as well as the relationship between these factors.
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Study of mechanical properties of AISI 316 stainless steel processed by “selective laser melting”, following different manufacturing strategies
TL;DR: In this article, the authors focused on the study of the mechanical properties and their variability with manufacturing orientation (anisotropy) for a metallic alloy manufactured by additive manufacturing, using the technology of selective laser melting (SLM).