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Surface Tension and Surface Tension Assessment of Ag-Au-Cu Ternary and Sub-Binary Alloy Systems

Hüseyin ARSLAN


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    <subfield code="a">&lt;p&gt;Abstract&lt;br&gt;
A brief review of measurement techniques and theoretical studies on the surface&lt;br&gt;
tension alloy and mixture has been presented in the present study. It is clear that the&lt;br&gt;
experimental determination of thermodynamic and thermophysical properties of&lt;br&gt;
both solid and especially liquid alloys at high temperature cases is frequently difficult&lt;br&gt;
technologically. In addition to this, a lack of experimental data concerning&lt;br&gt;
thermophysical properties of Ag-Au, Au-Cu, and Ag-Cu sub-binary systems is&lt;br&gt;
obvious. The theoretical thermophysical data of the Ag-Au-Cu ternary alloy systems&lt;br&gt;
are very scarce in the literature. Thus, the surface tensions of the alloys just mentioned&lt;br&gt;
above for cross sections z = xAg/xAu = 1/3, 1/1, 3/1, 2/5, and 5/2, respectively,&lt;br&gt;
and their sub-binary systems are much simply calculated from the surface tensions&lt;br&gt;
of the Ag-Au, Au-Cu, and Ag-Cu sub-binary systems by using geometric models,&lt;br&gt;
such as Muggianu, Kohler, Toop, and GSM (Chou&amp;rsquo;s general solution model) and&lt;br&gt;
Butler&amp;rsquo;s equation. The predicted results in the present study show rather an agreement&lt;br&gt;
with the experimental results of the alloys. Therefore, it is inferred that the&lt;br&gt;
obtained surface tension curves for the Ag-Au-Cu ternary alloy at 1&lt;/p&gt;</subfield>
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    <subfield code="a">10.5772/intechopen.84701</subfield>
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    <subfield code="a">surface tension, geometric models, Butler equation, Pb-free ternary alloys</subfield>
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