China Foundry (Nov 2017)

Numerical simulation of microstructure evolution and microsegregation of U-Nb alloy during solidification process

  • Bin Su,
  • Zhi-qiang Han,
  • Hong-zhang Deng

DOI
https://doi.org/10.1007/s41230-017-7135-6
Journal volume & issue
Vol. 14, no. 5
pp. 412 – 415

Abstract

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In this work, a cellular automaton model has been developed to simulate the microstructure evolution of U-Nb alloy during the solidification process. The preferential growth orientation, solute redistribution in both liquid and solid, solid/liquid interface solute conservation, interface curvature and the growth anisotropy were considered in the model. The model was applied to simulate the dendrite growth and Nb microsegregation behavior of U-5.5Nb alloy during solidification, and the predicted results showed a reasonable agreement with the experimental results. The effects of cooling rates on the solidification microstructure and composition distribution of U-5.5Nb were investigated by using the developed model. The results show that with the increase of the cooling rate, the average grain size decreases and the Nb microsegregation increases.

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