Tensile properties of Ti-6Al-4V as-built by laser metal deposition: The relationship between heat affected zone bands, strain localization and anisotropy in ductility

Expanded structural applications of additively fabricated or repaired components rely on a thorough understanding of relationships between the anisotropic microstructure and macroscopic mechanical properties. In the present study, Ti‐6Al‐4V as-built by laser metal deposition using a powder feedstock...

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Bibliographic Details
Published in:Additive manufacturing 2022-07, Vol.55, p.102830, Article 102830
Main Authors: Yvinec, T., Naït-Ali, A., Mellier, D., Bertheau, D., Cormier, J., Villechaise, P., Rat, L., Hémery, S.
Format: Article
Language:English
Subjects:
Additive manufacturing
Anisotropy
Engineering Sciences
Laser metal deposition
Strain localization
Tensile properties
Ti-6Al-4V
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Summary:Expanded structural applications of additively fabricated or repaired components rely on a thorough understanding of relationships between the anisotropic microstructure and macroscopic mechanical properties. In the present study, Ti‐6Al‐4V as-built by laser metal deposition using a powder feedstock was investigated through an extensive characterization of microstructure, porosity and tensile properties along different loading directions. While no significant anisotropy in strength was noticed, the ductility was observed to vary significantly depending on the loading direction. Higher ductility along the build direction was found to result from strain delocalization using in-situ tensile tests combined with digital image correlation. Differences in mesoscale strain localization patterns stem from a specific distribution of α’ plates in relation to HAZ bands. In addition, the influence of a variety of other features including the crystallographic textures, the β grain morphology, the distance to the free surface, the porosity and the argon shielding during manufacturing on tensile properties was also examined and discussed in light of existing literature.
ISSN:2214-8604
2214-7810
DOI:10.1016/j.addma.2022.102830