Hong Yan scite author profile

Interactions between the solidification front and the remaining suspended particles take place during solidification of particles reinforced composites. The particles are either engulfed by the solidification front or pushed by the solid-liquid interface. In this study, the relation of distribution and clustering degree of nano-Al 2 O 3 in Al7075 with the microstructure of alloy was investigated by conducting casting experiment. A hydrodynamic model for calculating the critical interface velocity required to push nano-particles by the interface was proposed. In addition, the influence of the nano-particles present ahead of solidification front on interface shape was discussed. Microstructural studies showed that the resulting microstructures of composites depended on the size and degree of nano-Al 2 O 3 clustering. Based on the model, it was found that for particles below approximately 36% of the critical radius, r < 0.36r * = 0.9973 μm, the critical interface velocities were four orders of magnitude lower than those obtained by micron particles, suggesting that smaller particles are easily engulfed by the interface rather than pushed. The experimental results were validated by the prediction of the model. Result showed that the constitutional super-cooling of local melts and the accumulation of solute behind the particle caused formation of a cellular interface.

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Hong Yan

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Evolution of second phases and mechanical properties of 7075 Al alloy processed by solution heat treatment

Effect of Sm additions on the microstructure and corrosion behavior of magnesium alloy AZ91

The mechanism of bedding separation in roof strata overlying a roadway within a thick coal seam: A case study from the Pingshuo Coalfield, China

Solid–liquid interface dynamics during solidification of Al 7075–Al2O3np based metal matrix composites

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