Eutectic Point

From Soft-Matter
Revision as of 16:41, 5 December 2011 by Redston (Talk | contribs)

Jump to: navigation, search

Entry by Emily Redston

www.tulane.edu/.../geol212/2compphasdiag.html
Figure 1 shows a common and relatively simple binary phase diagram known as a eutectic phase diagram. A eutectic diagram can be thought of as the intersection of two solid solution diagrams. At the intersection of the two liquidus lines, the melt is in equilibrium with the two solid phases. In other words, a single liquid phase is transformed into two solid phases upon cooling, and the opposite occurs upon heating. This is called a eutectic reaction, and can be written as
<math> L \rightleftharpoons A + B </math>

According to Gibbs Phase Rule, at this phase transition, we know that the number of degrees of freedom is

<math>F=\left( C+2-P \right)=2+2-3=1 </math>.

There is only one degree of freedom, so if we assume constant pressure (a typical choice), then all three phases can only be in equilibrium at an invariant point --- the eutectic point! This means that once we fix the pressure, the eutectic temperature and composition will be set at one point.

References

[1] Spaepen, Frans. Applied Physics 282: Solids: Structure and Defects. Harvard University

[2] Haasen, Peter. Physical Metallurgy. Cambridge: Cambridge UP, 1996.

[3] Callister, William D. Materials Science and Engineering: an Introduction. New York: John Wiley & Sons, 2007.

Keyword in References

Stretchable Microfluidic Radiofrequency Antennas


See also:

Phase separation in Phases and Phase Diagrams from Lectures for AP225.