Aldara Pan Cabo scite author profile

Aldara Pan Cabo

3Publications

64Citation Statements Received

54Citation Statements Given

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Heriot-Watt University

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Material interactions in laser polishing powder bed additive manufactured Ti6Al4V components

Tian

Góra

Cabo

et al. 2018

Additive Manufacturing

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Laser polishing (LP) is an emerging technique with the potential to be used for post-build, or in-situ, precision smoothing of rough fatigue-initiation prone surfaces of additive manufactured (AM) components. LP uses a laser to re-melt a thin surface layer and smooths the surface by exploiting surface tension effects in the melt pool. However, rapid resolidification of the melted surface layer and the associated substrate thermal exposure can significantly modify the subsurface material. This study has used an electron beam melted (EBM) Ti6Al4V component, representing the worst case scenario in terms of roughness for a powder bed process, as an example to investigate these issues and evaluate the capability of the LP technique for improving the surface quality of AM parts. Experiments have shown that the surface roughness can be reduced to below Sa=0.51 µm, which is comparable to a CNC machined surface, and high stress concentrating defects inherited from the AM process were removed by LP. However, the re-melted layer underwent a change in texture, grain structure, and a martensitic transformation, which was subsequently tempered in-situ by repeated beam rastering and resulted in a small increase in sub-surface hardness. In addition, a high level of near-surface tensile residual stresses was generated by the process, although they could be relaxed to near zero by a standard stress relief heat treatment.

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Enhancing Surface Finish of Additively Manufactured Titanium and Cobalt Chrome Elements Using Laser Based Finishing

et al. 2016

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Laser ultralabur baten bidezko urrezko estaldura meheen ablazioa

Martinez¹,

González²,

Cabo³

et al. 2021

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Aldara Pan Cabo

Material interactions in laser polishing powder bed additive manufactured Ti6Al4V components

Enhancing Surface Finish of Additively Manufactured Titanium and Cobalt Chrome Elements Using Laser Based Finishing

Laser ultralabur baten bidezko urrezko estaldura meheen ablazioa

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