Effect of the Solidification Mode on the Pore Growth of Gasar Porous Mg‐Ag Alloy

Effect of the Solidification Mode on the Pore Growth of Gasar Porous Mg‐Ag Alloy

Gasar porous Mg–3 wt% Ag alloy is prepared by metal–gas eutectic directional solidification process. The pore structure is related to the solidification mode of the alloy. The pores grow stably under the solidification conditions of planar, cellular, and columnar dendrites but not under the conditio...

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Bibliographic Details
Published in:Crystal research and technology (1979) Vol. 58; no. 8
Main Authors: Yin, Mang, Li, Zaijiu, Jin, Qinglin, Yang, Xiuping, Xia, Chenping
Format: Journal Article
Language:English
Published: 01-08-2023
Subjects:
crystal growth
Gasar porous metals
Mg‐Ag alloy
solidification mode
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Summary:Gasar porous Mg–3 wt% Ag alloy is prepared by metal–gas eutectic directional solidification process. The pore structure is related to the solidification mode of the alloy. The pores grow stably under the solidification conditions of planar, cellular, and columnar dendrites but not under the condition of equiaxed dendrites. The numerical simulation shows that the solidification velocity and temperature gradient decrease rapidly with an increase in the sample height, but their ratio remains unchanged. During the solidification process, the solidification mode of the alloy changes from cellular crystals to columnar dendrites, and finally to equiaxed dendrites. The calculated results of the solidification mode transition are consistent with the microstructure morphologies of the Mg–Ag alloy at different heights. Gasar porous Mg–3 wt% Ag alloy is prepared by metal–gas eutectic directional solidification process. During the solidification process, the solidification mode of the alloy changes from cellular crystals to columnar dendrites, and finally to equiaxed dendrites. The numerical simulation shows that the solidification velocity and temperature gradient decrease rapidly with an increase in the sample height, but their ratio remains unchanged.
ISSN:0232-1300
1521-4079
DOI:10.1002/crat.202300038