1 / 35

Alkemades Lines

Alkemades Lines. Phase Equilibria Ceramic Engineering 251. Alkemade Lines. Alkemades lines are a subset of Binary Join Lines, that connect the primary compositions of two phase fields that share a common boundary. Alkemades lines divide a phase diagram into compatibility triangles.

zamora
Télécharger la présentation

Alkemades Lines

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Alkemades Lines Phase Equilibria Ceramic Engineering 251

  2. Alkemade Lines • Alkemades lines are a subset of Binary Join Lines, that connect the primary compositions of two phase fields that share a common boundary. • Alkemades lines divide a phase diagram into compatibility triangles. • Alkemades’ Theorem can be used to determine the direction of decreasing temperature on a phase diagram.

  3. Alkemade LinesTable of Contents • Congruently Melting Compounds • Drawing Alkemades Lines • Compatibility Triangles • Alkemades’ Theorem - Drawing Temperature Arrows • Incongruently Melting Compounds • Congruently Melting Ternary Compounds • Incongruently Melting Ternary Compounds - Single Incongruency • Incongruently Melting Ternary Compounds - Double Incongruency • The End

  4. C C B A AB A B AB Congruently Melting Compounds Each boundary line on the diagram has an Alkemades line associated with it. To determine which Alkemades line goes with each of the boundary lines…. • First, highlight the boundary between A and C. • Then, highlight the Alkemades line that connects the compositions A and C, in the same color. • This can also be done for the boundary lines connecting C and B, A and AB And AB and B.

  5. C C B A AB A B AB Congruently Melting Compounds • The Alkemades line that is associated with the boundary line between C and AB is not as obvious. • It must be drawn to connect the compositions of A and C.

  6. C C B A AB A B AB Congruently Melting Compounds This Alkemades line drawn from C to AB is a true binary join because it crosses the boundary line that its end components share.

  7. C C B A AB A B AB Congruently Melting Compounds Compatibility Triangles • Alkemades lines divide a phase diagram into compatibility triangles. • This phase diagram is divided into two triangles.

  8. Congruently Melting Compounds Alkemades’Theorem The intersection of a boundary line (or extended boundary line) with its corresponding Alkemades line (or extended Alkemades line) is a maximum in temperature on the boundary line and a minimum in temperature on the Alkemades line. • This theorem can be used to draw arrows on the diagram showing the direction of decreasing temperature. • The point where a corresponding Alkemades and boundary line meet is a maximum and a minimum, it is labeled “m”.

  9. C C B A AB A B AB Congruently Melting Compounds Temperature Arrows To draw the temperature arrows on this diagram... begin by labeling point where the boundary between A and C crosses the Alkemades line between B and C as a “m” point. m

  10. C C B A AB A B AB Congruently Melting Compounds Temperature Arrows This point is a maximum in temperature on the boundary line so the temperature arrows will point away from the point. m This point is a minimum in temperature on the Alkemades line so the arrows will point toward the point.

  11. C C m B A AB A B AB Congruently Melting Compounds Temperature Arrows We can go through the same process for the other lines on the diagram. m m m m

  12. C m C m m B A AB A B m m AB Congruently Melting Compounds To finish the diagram the binary invariant points are given their appropriate labels. e e And the ternary invariant points are labeled. E E The diagram is finished. e e

  13. Incongruently Melting Compounds • Begin by highlighting each boundary line and the Alkemades line associated with it. C C B A AB B A AB

  14. Incongruently Melting Compounds C • The Alkemades line between C and AB, in this diagram, is a Non-binary Join because it does not cross the boundary line that its end components share. C B A AB B A AB

  15. C C B A AB B A AB Incongruently Melting CompoundsCompatibility Triangles • Alkemades lines divide a phase diagram into compatibility triangles. • This phase diagram is divided into two triangles.

  16. C C B A AB B A Incongruently Melting Compounds Alkemades’ Theorem- Temp Arrows • Begin by labeling the max/min points. • Then draw the temperature arrows on the boundary and Alkemades lines. m m m AB Not an “m” point, the boundary line does not cross the Alkemades line it is associated with.

  17. C m m C B A AB B A m AB Incongruently Melting Compounds Alkemades’ Theorem- Temp Arrows • The point where the two lines intersect can be used the same way the other intersection points are. The temperature arrows on the Alkemades line will go towards the point. The arrows on the boundary line will go away from the point. • The AB and B boundary line and alkemade line do not meet. To correct for this, draw a temporary extention of the alkemade line.

  18. C m m C B A AB B A m Incongruently Melting CompoundsAlkemades’ Theorem- Temp Arrows • The boundary line for C and AB can be drawn in the same way it was on the previous diagram. • First draw an extension of the boundary line so that it will intersect the Alkemades line. • Then use the point where the lines meet as a guide for drawing in the temperature arrows. AB

  19. C m m C B A AB B A m Incongruently Melting Compounds • Then the extension lines are removed, leaving only the Alkemades and boundary lines with their temperature arrows. e • The binary invariant points are given their appropriate labels. e P • And the ternary invariant points are labeled. E • The diagram is finished. AB e p

  20. C C A AB B A B Congruently Melting Ternary Compounds • Begin by highlighting each boundary line and the Alkemades line associated with it. • Then draw in the Alkemades lines for the three remaining boundary lines.

  21. C C A AB B A B Congruently Melting Ternary CompoundsCompatibility Triangles • Alkemades lines divide a phase diagram into compatibility triangles. • This phase diagram is divided into three triangles.

  22. C A AB B A B Congruently Melting Ternary Compounds C • Begin by labeling the max/min points. • Then draw the temperature arrows on the boundary and Alkemades lines. m m m m m m

  23. C A AB B A B Congruently Melting Ternary Compounds C • The binary invariant points are given their appropriate labels. • And the ternary invariant points are labeled. m e m e • The diagram is finished. E m E m m E m e

  24. C C ABC A ABC B A B Incongruently Melting Ternary Compounds- Single Incongruency • Begin by highlighting each boundary line and the Alkemades line associated with it. • Then draw in the Alkemades lines for the three remaining boundary lines.

  25. C C ABC A ABC B A B Incongruently Melting Ternary CompoundsCompatibility Triangles • Alkemades lines divide a phase diagram into compatibility triangles. • This phase diagram is divided into three triangles.

  26. Incongruently Melting Ternary Compounds C C ABC ABC B A B • Begin by labeling the max/min points. • Then draw the temperature arrows on the boundary and Alkemades lines. m m A m

  27. Incongruently Melting Ternary Compounds C m m C ABC ABC A B A B • The ABC and C boundary line and Alkemades line do not cross. To correct for this, draw a temporary extension of the Alkemades line. m

  28. Incongruently Melting Ternary Compounds C m m C ABC ABC A B A B • The point where the two lines intersect can be used the same way the other intersection points are. The temperature arrows on the Alkemades line will go towards the point. The arrows on the boundary line will go away from the point. m

  29. Incongruently Melting Ternary Compounds C m m C ABC ABC A B A B • We can go through the same process for the A and ABC boundary line and the B and ABC boundary line. m

  30. Incongruently Melting Ternary Compounds C m m C ABC ABC A B A B • Then the extension lines are removed, leaving only the Alkemades and boundary lines with their temperature arrows. • The binary invariant points are given their appropriate labels. • And the ternary invariant points are labeled. e e P P • The diagram is finished. E m e

  31. Incongruently Melting Ternary Compounds-Double Incongruency • Begin by highlighting each boundary line and the Alkemades line associated with it. C C ABC ABC B A B A

  32. C C ABC ABC B A B A Incongruently Melting Ternary CompoundsCompatibility Triangles • Alkemades lines divide a phase diagram into compatibility triangles. • This phase diagram is divided into three triangles.

  33. Incongruently Melting Ternary Compounds C • Begin by labeling the max/min points. • Then draw the temperature arrows on the boundary and Alkemades lines. C m m ABC ABC B m A B A m

  34. Incongruently Melting Ternary Compounds C C m m ABC ABC B A B A m • Draw an extension of the ABC and C boundary line to use when putting on the temperature arrows. • An extension of the ABC and A boundary can be also be drawn to use when putting on the temperature arrows. m

  35. Incongruently Melting Ternary Compounds C C m m ABC ABC B A B A m • Then the extension lines are removed, leaving only the Alkemades and boundary lines with their temperature arrows. • The binary invariant points are given their appropriate labels. e e P • And the ternary invariant points are labeled. E m • The diagram is finished. E e

More Related