K.J. Chaput scite author profile

State-of-the-art metal 3D printers promise to revolutionize manufacturing, yet they have not reached optimal operational reliability. The challenge is to control complex laser–powder–melt pool interdependency (dependent upon each other) dynamics. We used high-fidelity simulations, coupled with synchrotron experiments, to capture fast multitransient dynamics at the meso-nanosecond scale and discovered new spatter-induced defect formation mechanisms that depend on the scan strategy and a competition between laser shadowing and expulsion. We derived criteria to stabilize the melt pool dynamics and minimize defects. This will help improve build reliability.

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High temperature oxidation behaviors of equimolar NbTiZrV and NbTiZrCr refractory complex concentrated alloys (RCCAs)

Butler

Chaput

Dietrich

et al. 2017

Journal of Alloys and Compounds

144

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Compositional effect on microstructure and properties of NbTiZr-based complex concentrated alloys

et al. 2018

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A discrete source model of powder bed fusion additive manufacturing thermal history

Schwalbach

Donegan

Chapman

et al. 2019

Additive Manufacturing

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K.J. Chaput

Development and exploration of refractory high entropy alloys—A review

Controlling interdependent meso-nanosecond dynamics and defect generation in metal 3D printing

High temperature oxidation behaviors of equimolar NbTiZrV and NbTiZrCr refractory complex concentrated alloys (RCCAs)

Compositional effect on microstructure and properties of NbTiZr-based complex concentrated alloys

A discrete source model of powder bed fusion additive manufacturing thermal history

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