Journal
MATERIALIA
Volume 21, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mtla.2022.101348
Keywords
Concurrent precipitation; Magnesium alloys; Precipitation modeling; Microstructure characterization; Kampmann-wagner numerical (kwn) model
Categories
Funding
- United States Department of Energy [DE-EE0006450]
- United States Government
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This study quantitatively characterized the concurrent precipitation microstructure of Mg17Al12 and Mg2Sn phases in AT72 magnesium alloy using STEM techniques. An improved KWN model was used to simulate the evolution of the microstructure and predict the age hardening behavior, optimizing the composition and heat treatment procedure of precipitation strengthened alloys.
The concurrent precipitation microstructure of Mg17Al12 and Mg2Sn phases in AT72 (Mg-7Al-2Sn) magnesium al-loy was quantitatively characterized using Scanning Transmission Electron Microscopy (STEM) based techniques. An improved Kampmann-Wagner numerical (KWN) model taking into account of the effects of non-spherical precipitates on growth kinetics and coupled with multicomponent thermodynamic and kinetic databases of mag-nesium alloys was used to simulate the evolution of the concurrent precipitation microstructure. Furthermore, the age hardening behavior of AT72 alloy was predicted by coupling the improved KWN model with a classical precipitation strengthening model. Simulation results show that a lower aging temperature will lead to finer and higher number density of both types of precipitates, providing improved aging hardening response. The addition of Al to Mg-Sn alloys can increase the driving force and precipitation kinetics of Mg2Sn phase. High-throughput KWN simulation was performed on the Mg-Al-Sn alloy system to demonstrate the application of the improved KWN model in optimizing the composition and heat treatment procedure in precipitation strengthened alloys.
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