Michael Bermingham scite author profile

Additive manufacturing (AM) of metals, also known as metal 3D printing, typically leads to the formation of columnar grain structures along the build direction in most as-built metals and alloys. These long columnar grains can cause property anisotropy, which is usually detrimental to component qualification or targeted applications. Here, without changing alloy chemistry, we demonstrate an AM solidification-control solution to printing metallic alloys with an equiaxed grain structure and improved mechanical properties. Using the titanium alloy Ti-6Al-4V as a model alloy, we employ high-intensity ultrasound to achieve full transition from columnar grains to fine (~100 µm) equiaxed grains in AM Ti-6Al-4V samples by laser powder deposition. This results in a 12% improvement in both the yield stress and tensile strength compared with the conventional AM columnar Ti-6Al-4V. We further demonstrate the generality of our technique by achieving similar grain structure control results in the nickel-based superalloy Inconel 625, and expect that this method may be applicable to other metallic materials that exhibit columnar grain structures during AM.

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Promoting the columnar to equiaxed transition and grain refinement of titanium alloys during additive manufacturing

Bermingham

et al. 2019

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Controlling the microstructure and properties of wire arc additive manufactured Ti–6Al–4V with trace boron additions

et al. 2015

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New observations on tool life, cutting forces and chip morphology in cryogenic machining Ti-6Al-4V

Bermingham

Kirsch²,

Sun

et al. 2011

International Journal of Machine Tools and Manufacture

322

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