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Table of contents

  1. Front Matter
  2. Materials Science International Team MSIT®
    Pages 1-17
  3. Materials Science International Team MSIT®
    Pages 1-1
  4. Materials Science International Team MSIT®
    Pages 1-42
  5. Materials Science International Team MSIT®
    Pages 43-57
  6. Materials Science International Team MSIT®
    Pages 58-63
  7. Materials Science International Team MSIT®
    Pages 64-72
  8. Materials Science International Team MSIT®
    Pages 73-76
  9. Materials Science International Team MSIT®
    Pages 77-91
  10. Materials Science International Team MSIT®
    Pages 92-104
  11. Materials Science International Team MSIT®
    Pages 105-111
  12. Materials Science International Team MSIT®
    Pages 112-127
  13. Materials Science International Team MSIT®
    Pages 128-151
  14. Materials Science International Team MSIT®
    Pages 152-158
  15. Materials Science International Team MSIT®
    Pages 159-166
  16. Materials Science International Team MSIT®
    Pages 167-182
  17. Materials Science International Team MSIT®
    Pages 183-209
  18. Materials Science International Team MSIT®
    Pages 210-221
  19. Materials Science International Team MSIT®
    Pages 222-227
  20. Materials Science International Team MSIT®
    Pages 228-242
  21. Materials Science International Team MSIT®
    Pages 243-251
  22. Materials Science International Team MSIT®
    Pages 252-260
  23. Materials Science International Team MSIT®
    Pages 261-267
  24. Materials Science International Team MSIT®
    Pages 268-278
  25. Materials Science International Team MSIT®
    Pages 279-286
  26. Materials Science International Team MSIT®
    Pages 287-299
  27. Materials Science International Team MSIT®
    Pages 300-317
  28. Materials Science International Team MSIT®
    Pages 318-327
  29. Materials Science International Team MSIT®
    Pages 328-331
  30. Materials Science International Team MSIT®
    Pages 332-345
  31. Materials Science International Team MSIT®
    Pages 346-357
  32. Materials Science International Team MSIT®
    Pages 358-363
  33. Materials Science International Team MSIT®
    Pages 364-373
  34. Materials Science International Team MSIT®
    Pages 374-381
  35. Materials Science International Team MSIT®
    Pages 382-395
  36. Materials Science International Team MSIT®
    Pages 396-407
  37. Materials Science International Team MSIT®
    Pages 408-419
  38. Materials Science International Team MSIT®
    Pages 420-436
  39. Materials Science International Team MSIT®
    Pages 437-442
  40. Materials Science International Team MSIT®
    Pages 443-450
  41. Materials Science International Team MSIT®
    Pages 451-458

About this book

Introduction

The present volume in the New Series of Landolt-Börnstein provides critically evaluated data on phase diagrams, crystallographic and thermodynamic data of ternary alloy systems. Reliable phase diagrams provide materials scientists and engineers with basic information important for fundamental research, development and optimization of materials.

The often conflicting literature data have been critically evaluated by Materials Science International Team, MSIT®, a team working together since many years, and with expertise in a broad range of methods, materials and applications. All evaluation reports published here have undergone a thorough review process in which the reviewers had access to all the original data.

The data for each ternary system are provided in a standard format which includes text, tables and diagrams. The topics presented are literature data, binary systems, solid phases, pseudobinary systems, invariant equilibria, liquidus, solidus, and solvus surfaces, isothermal sections, temperature-composition sections, thermodynamics, materials properties and applications, and miscellanea. Finally, a detailed bibliography of all cited references is provided.

In the present volume IV/11C selected non-ferrous-metal systems are considered, especially selected copper systems in this Part 2.

Keywords

Ternary alloys copper crystallography non-ferrous metal systems optimization phase diagrams phase equilibria thermodynamics

Editors and affiliations

  • G. Effenberg
    • 1
  • S. Ilyenko
    • 1
  1. 1.Materials Science International Services GmbHStuttgartGermany

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-540-47000-7
  • Copyright Information Springer-Verlag Berlin Heidelberg 2007
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Physics and Astronomy
  • Print ISBN 978-3-540-25776-9
  • Online ISBN 978-3-540-47000-7
  • Series Print ISSN 1615-2018
  • Series Online ISSN 1616-9557
  • Buy this book on publisher's site
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