Thermo (Jun 2022)

Multi-Scale Modelling of the Bound Metal Deposition Manufacturing of Ti6Al4V

  • Dmitry G. Luchinsky,
  • Vasyl Hafiychuck,
  • Kevin R. Wheeler,
  • Sudipta Biswas,
  • Christopher E. Roberts,
  • Ian M. Hanson,
  • Tracie J. Prater,
  • Peter V. E. McClintock

DOI
https://doi.org/10.3390/thermo2030011
Journal volume & issue
Vol. 2, no. 3
pp. 116 – 148

Abstract

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Nonlinear shrinkage of the metal part during manufacturing by bound metal deposition, both on the ground and under microgravity, is considered. A multi-scale physics-based approach is developed to address the problem. It spans timescales from atomistic dynamics on the order of nanoseconds to full-part shrinkage on the order of hours. This approach enables estimation of the key parameters of the problem, including the widths of grain boundaries, the coefficient of surface diffusion, the initial redistribution of particles during the debinding stage, the evolution of the microstructure from round particles to densely-packed grains, the corresponding changes in the total and chemical free energies, and the sintering stress. The method has been used to predict shrinkage at the levels of two particles, of the filament cross-section, of the sub-model, and of the whole green, brown, and metal parts.

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