The effect of SLM process parameters on density, hardness, tensile strength and surface quality of Ti-6Al-4V

•To compare the effect of selective laser melting variables on different mechanical properties and compare the results.•Statistical analysis was used for characterising the interaction and effect of parameters on the hardness and density.•Describing the governing phenomena on melting pool rheology a...

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Bibliographic Details
Published in:Additive manufacturing 2019-01, Vol.25, p.176-186
Main Authors: Khorasani, AmirMahyar, Gibson, Ian, Awan, Umar Shafique, Ghaderi, Alireza
Format: Article
Language:English
Subjects:
Additive manufacturing
Hardness
Interaction plots
Relative density
Selective laser melting
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Summary:•To compare the effect of selective laser melting variables on different mechanical properties and compare the results.•Statistical analysis was used for characterising the interaction and effect of parameters on the hardness and density.•Describing the governing phenomena on melting pool rheology and its effect on density and hardness. In this paper, we printed Ti-6Al-4V SLM parts based on Taguchi design of experiment and related standards to measure and compare hardness with different mechanical properties that were obtained in our previous research such as density, strength, elongation, and average surface. Then the effect of process parameters comprising laser power, scan speed, hatch space, laser pattern angle coupling, along with heat treatment as a post-process, in relation to hardness was analysed. The relation of measured factors with each other was also studied and related mechanisms were discussed in depth. The original contribution in this paper is in producing a large and precise dataset and the comparison with mechanical properties. Another contribution is related to the analysis of process parameters in relation to hardness and explaining them by rheological phenomena. The results showed an interesting similarity between hardness and density which is highly related to the formation of the melting pool and porosities within the process.
ISSN:2214-8604
2214-7810
DOI:10.1016/j.addma.2018.09.002