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Table of contents

  1. Front Matter
  2. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 1-13
  3. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 1-5
  4. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 6-31
  5. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 32-32
  6. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 33-37
  7. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 38-41
  8. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 42-44
  9. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 45-48
  10. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 49-52
  11. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 53-55
  12. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 56-60
  13. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 61-63
  14. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 64-68
  15. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 67-70
  16. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 71-74
  17. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 75-77
  18. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 78-80
  19. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 81-83
  20. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 84-87
  21. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 88-91
  22. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 92-94
  23. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 95-97
  24. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 98-102
  25. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 103-105
  26. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 106-108
  27. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 109-111
  28. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 112-115
  29. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 116-118
  30. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 119-121
  31. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 122-124
  32. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 125-128
  33. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 129-133
  34. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 134-138
  35. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 139-142
  36. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 143-147
  37. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 148-150
  38. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 151-153
  39. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 154-156
  40. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 157-159
  41. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 160-163
  42. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 164-169
  43. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 170-172
  44. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 173-174
  45. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 175-177
  46. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 178-181
  47. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 182-187
  48. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 188-189
  49. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 190-191
  50. Collaboration: Scientific Group Thermodata Europe (SGTE)
    Pages 192-194

About this book

Introduction

Thermodynamic data, in conjunction with appropriate software for calculation of complex chemical equilibria, are finding wide application in many areas of materials design and development. In particular, the last 25 years have seen enormous advances in the thermodynamic modelling of alloy solution phases, whereby a knowledge of the underlying crystallographic structure of each phase is fundamental to a reliable representation of the thermodynamic properties and phase equilibria of a particular system of interest. With the aid of thermodynamic calculations, considerable time and costs can and are being saved in producing a material of the required composition and phase constitution required for a particular application. SGTE has been at the forefront in providing critically assessed thermodynamic data for alloy systems and has provided guidelines for the modelling of alloy phases of different types. Major advantages of the SGTE data are their self-consistency, the fact that they are produced with careful attention to a well-defined quality procedure and that the expertise of SGTE members in various areas of inorganic chemistry and materials science allows review of the numbers by highly qualified scientists in the fields concerned.

Keywords

Activity Chemical formula Computer Enthalpy Entropy Gibbs energy Integral thermodynamic quantities Partial thermodynamic quantities Phase diagram Phase transition Specific heat Thermodynamic quantities crystallography

Bibliographic information

  • DOI https://doi.org/10.1007/b68942
  • Copyright Information Springer-Verlag Berlin Heidelberg 2002
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Physics and Astronomy
  • Print ISBN 978-3-540-65327-1
  • Online ISBN 978-3-540-49418-8
  • Series Print ISSN 1615-2018
  • Series Online ISSN 1616-9557
  • Buy this book on publisher's site