New grain formation by constitutional undercooling due to remelting of segregated microstructures during powder bed fusion

Rausch A, Gotterbarm M, Pistor J, Markl M, Körner C (2020)


Publication Type: Journal article

Publication year: 2020

Journal

Book Volume: 13

Pages Range: 1-14

Article Number: 5517

Journal Issue: 23

DOI: 10.3390/ma13235517

Abstract

A microstructure has significant influence on the mechanical properties of parts. For isotropic properties, the formation of equiaxed microstructures by the nucleation of new grains during solidification is necessary. For conventional solidification processes, nucleation is well-understood. Regarding powder bed fusion, the repeated remelting of previous layers can cause nucleation under some conditions that are not explainable with classical theories. Here, we investigate this nucleation mechanism with an unprecedented level of detail. In the first step, we built samples with single crystalline microstructures from Ni-base superalloy IN718 by selective electron beam melting. In the second step, single lines with different parameters were molten on top of these samples. We observed a huge number of new grains by nucleation at the melt-pool border of these single lines. However, new grains can only prevail if the alignment of their crystallographic orientation with respect to the local temperature gradient is superior to that of the base material. The current hypothesis is that nucleation at the melt-pool border happens due to remelting microsegregations from former solidification processes leading to constitutional undercooling directly at the onset of solidification. This study offers the opportunity to understand and exploit this mechanism for different manufacturing processes.

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How to cite

APA:

Rausch, A., Gotterbarm, M., Pistor, J., Markl, M., & Körner, C. (2020). New grain formation by constitutional undercooling due to remelting of segregated microstructures during powder bed fusion. Materials, 13(23), 1-14. https://dx.doi.org/10.3390/ma13235517

MLA:

Rausch, Alexander, et al. "New grain formation by constitutional undercooling due to remelting of segregated microstructures during powder bed fusion." Materials 13.23 (2020): 1-14.

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