Improved microstructure and increased mechanical properties of additive manufacture produced TI-6AL-4V by interpass cold rolling

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2013-08-31

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University of Texas

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Conference paper

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Filomeno Martina, Stewart Williams and Paul Colegrove. Improved microstructure and increased mechanical properties of additive manufacture produced TI-6AL-4V by interpass cold rolling. 24th International Solid Freeform Fabrication Symposium, 12-14 August 2014, Austin TX, USA.

Abstract

Distortion, residual stress and mechanical property anisotropy are current challenges in additive manufacturing (AM) of Ti-6Al-4V. High-pressure, interpass rolling was applied to linear AM parts and resulted in a change from large columnar prior β grains to a completely equiaxed microstructure with grains as small as 89 μm. Moreover, α laths thickness was also reduced to 0:62 μm. The change in material microstructure resulted in a substantial improvement of all mechanical properties tested, which were also totally isotropic. In rolled specimens, maximum measured strength and elongation were 1078MPa and 14% respectively, both superior to the wrought material. Distortion was reduced to less than half. Rolling proved to be a relatively easy method to overcome some of the critical issues which keep AM from full industrial implementation.

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