Numerical Simulation of Heat Treatment of Ti-6AI-4V by using a Phase-Field Method Based Software.
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2020. Beitrag in 5th Metal Additive Manufacturing Conference.
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T1 - Numerical Simulation of Heat Treatment of Ti-6AI-4V by using a Phase-Field Method Based Software.
AU - Mogeritsch, Johann
AU - Panzl, Gerhard
AU - Watzl, Alexander
AU - Ludwig, Andreas
PY - 2020/10/2
Y1 - 2020/10/2
N2 - Ti-6Al-4V is common material for additive manufacturing. However, parts formed by Selected La-ser Melting are known to be brittle so that a post-process heat treatment is required. One important goal for this additional production step is the degeneration of the martensitic ´-phase that had formed by the extreme conditions during layer-wise production. By using a phase-field based soft-ware that couples thermodynamic information with a diffusion solver to get a spatially resolved phase transformation description, we have investigated the microstructural dynamic of heat treat-ment procedures typical for additive manufactured Ti-6Al-4V parts. The model describes modifica-tion of the grain sizes and shapes, evolution of phases, and corresponding concentration distribu-tions during phase transition induced by annealing.
AB - Ti-6Al-4V is common material for additive manufacturing. However, parts formed by Selected La-ser Melting are known to be brittle so that a post-process heat treatment is required. One important goal for this additional production step is the degeneration of the martensitic ´-phase that had formed by the extreme conditions during layer-wise production. By using a phase-field based soft-ware that couples thermodynamic information with a diffusion solver to get a spatially resolved phase transformation description, we have investigated the microstructural dynamic of heat treat-ment procedures typical for additive manufactured Ti-6Al-4V parts. The model describes modifica-tion of the grain sizes and shapes, evolution of phases, and corresponding concentration distribu-tions during phase transition induced by annealing.
KW - Ti6Al4V
KW - additiv manufacturing
KW - phase field method
KW - MICRESS
KW - heat treatment
M3 - Paper
T2 - 5th Metal Additive Manufacturing Conference
Y2 - 30 September 2020 through 2 October 2020
ER -