Bulk and surface properties of liquid Al–Mg, Au–Sn, and Mg–Tl compound forming alloys

O.E. Awe; O. Akinlade; L.A. Hussain

doi:10.1016/j.susc.2006.03.003

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Bulk and surface properties of liquid Al–Mg, Au–Sn, and Mg–Tl compound forming alloys

Journal article

Peer reviewed

Bulk and surface properties of liquid Al–Mg, Au–Sn, and Mg–Tl compound forming alloys

O.E. Awe, O. Akinlade and L.A. Hussain

Surface science, Vol.600(10), pp.2122-2128

15/05/2006

DOI: https://doi.org/10.1016/j.susc.2006.03.003

Abstract

Aluminium

Equilibrium thermodynamics and statistical mechanics

Gold

Magnesium

Surface concentration

Surface tension

Thallium

Tin

We have used phenomenological models based on statistical mechanics to study the bulk and surface properties of Au–Sn, Al–Mg, and Mg–Tl binary liquid alloys. Our study reveals that the three alloys are weakly ordered systems with the most stable intermetallic complexes at temperatures of 823 K, 1073 K and 923 K been AuSn, Al 3Mg 2 and Mg 4Tl, respectively. An analysis of Warren–Cowley short-range order parameter indicates that the weakest intermetallic compound is Al–Mg while Au–Sn is observed to be more chemically ordered than Mg–Tl. Furthermore, our surface properties calculations shows that Mg-atom and Sn-atom segregate to the surface over the whole concentration range of Al–Mg and Au–Sn alloys, respectively. In Mg–Tl, there is a competing effect between Tl-atom being drawn into the bulk and at the same time Tl-atom wanting to segregate to the surface over the whole concentration range.

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Title: Bulk and surface properties of liquid Al–Mg, Au–Sn, and Mg–Tl compound forming alloys
Creators - without role: O.E. Awe - University of Ibadan
O. Akinlade - Federal University of Agriculture
L.A. Hussain - University of Ibadan
Publication Details: Surface science, Vol.600(10), pp.2122-2128
Publisher: Elsevier B.V
Identifiers: 9949632908331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article