Issue 2, 2018

A first-principles study of the structural, mechanical and electronic properties of precipitates of Al2Cu in Al–Cu alloys

Abstract

The properties of precipitates are important in understanding the strengthening mechanism via precipitation during heat treatment and the aging process in Al–Cu based alloys, where the formation of precipitates is sensitive to temperature and pressure. Here we report a first-principles investigation of the effect of temperature and pressure on the structural stability, elastic constants and formation free energy for precipitates of Al2Cu, as well as their mechanical properties. Based on the formation enthalpy of Guinier–Preston (GP(I)) zones, the size of the GP(I) zone is predicted to be about 1.4 nm in diameter, which is in good agreement with experimental observations. The formation enthalpies of the precipitates are all negative, suggesting that they are all thermodynamically stable. The present calculations reveal that entropy plays an important role in stabilizing θ-Al2Cu compared with θC′-Al2Cu. The formation free energies of θ′′-Al3Cu, θC′-Al2Cu, θD′-Al5Cu3 and θt′-Al11Cu7 increase with temperature, while those of θ′-Al2Cu, θO′-Al2Cu and θ-Al2Cu decrease. The same trend is observed with the effect of pressure. The calculated elastic constants for the considered precipitation phases indicate that they are all mechanically stable and anisotropic, except θC′-Al2Cu. θD′-Al5Cu3 has the highest Vicker's hardness. The electronic structures are also calculated to gain insight into the bonding characteristics. The present results can help in understanding the formation of precipitates by different treatment processes.

Graphical abstract: A first-principles study of the structural, mechanical and electronic properties of precipitates of Al2Cu in Al–Cu alloys

Supplementary files

Article information

Article type
Paper
Submitted
03 Oct 2017
Accepted
22 Nov 2017
First published
22 Nov 2017

Phys. Chem. Chem. Phys., 2018,20, 967-976

A first-principles study of the structural, mechanical and electronic properties of precipitates of Al2Cu in Al–Cu alloys

Y. F. Ouyang, H. M. Chen, X. M. Tao, F. Gao, Q. Peng and Y. Du, Phys. Chem. Chem. Phys., 2018, 20, 967 DOI: 10.1039/C7CP06757G

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