Euromet 2006 Influence of impurities on the melting temperature of Aluminum

1. Euromet 2006Influence of impurities on the melting temperature of Aluminum Pr. B. Legendre & Dr S. Fries EA 401

2. Impurities • B, C, Cr, Cu, F, Fe, Mg, Mn, N, Ni, O, Pt • S, Sc, Si, Ti, V, Zn. • Al – X Optimized • Al – Y Non optimized (or bad optimized), but the phase diagram is known • Al – F no data

3. Aim • Measurement of the slopes of the liquidus and of the solidus :  = (dT/dx) • l : for the liquidus s : for the solidus • The slope may be expressed in atomic fraction or in weight fraction. • Determination of K : • K = l/ s • For Al Tfus= 660.323°C

4. Phase diagram • For this subject we are interested only by a very small region in temperature and composition of binaries Al-X, but it is absolutely necessary to have a perfect knowledge of the full diagram. And to know the Gibbs function versus of T and x for each phase at a fixed pressure.

5. Phase diagram : Calphad Method • A phase diagram is the graphical expression of phase equilibria, for each phase in a binary system G = f(xi, T, P) • The limits of a two phase field aregiven by the common tangent of the G =f(xi)PT curves. • For a eutectic: • The three curves G=f(xi)p,T, have the same tangent.

6. The whole process

7. Calculating phase diagrams

8. Al - Si

9. Al - Si

10. Al -Si

11. Al - B

12. Al - B

13. Al - B

14. Al - Pt

15. Al - Pt

16. Al - Pt

17. Al - Pt

18. Al - Cr

19. Al - Cr

20. Al - Ni

21. Al - Ni

22. Al - Fe

23. Al - Fe

24. Al - Fe

25. Al - Cu

26. Al - Cu

27. Al - Cu

28. Al - Sc

29. Al - Sc • No data for the solidus…

30. Al – O: not a good optimization

32. Al - O • Why it is not possible to have a good optimization of the Al-O binary? • The oxygen forms with Al an oxide which is a thin film fixed on the surface of Al and then it is a kind of protection (aluminum pans are used on the gas in a kitchen…) after the fixation of a first layer the oxygen cannot go deeper in Al. There is no homogeneity and no equilibrium.

33. Al - O • L  Al + Al2O3 T =~ 660°C • Van’t Hoff law • dln(aAl)/dT = H/RT2 • aAl~ XAl • H = fusH(Al) = 10711.04J/mol • T = 0.452 K XAl= .9993316 • dT/dX = 676

34. Results

35. Comparison of results

36. Variation of the liquidus temperature versus of theyield of impurities • Tl = Tfus +  i • Tl = temperature of the liquidus • Tfus temperature of fusion of pure Al •  = dT/dx x : weight fraction • i : yield of impurities in ppm*10-6 • Example : for Al-Cr i = 9.9*10-2ppm •  = 466 Tl = 660.32°C

37. Temperature of liquidus and solidus for a yield of impurity

38. Conclusions • It has been possible to determine the influence of impurities in Al for nearly all the selected elements. • For O and S just an estimation has been possible. • The most important modifications occurs with O and N • It is possible to perform a calculation with two impurities.

39. Acknowledgement • This work has been financially supported by LNE and BNM • We are very grateful to these organisms for their contribution.

44. Al - Pt

45. Al - Pt

46. Al - Pt

47. Al - Ni

49. Al - Pt

50. Applications of Gibbs energies descriptions combined to kinetic Information