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Nanocrystalline Materials

Subvolume B

  • Book
  • © 2015

Overview

Editors:
  1. E. Burzo

    1. Faculty of Physics, Babes-Bolyai University, Cluj-Napoca, Romania
      Cluj-Napoca Branch, Romanian Academy of Science, Cluj-Napoca, Romania

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  • Standard reference book with selected and easily retrievable data from the fields of physics and chemistry collected by acknowledged international scientists
  • Also available online on www.springermaterials.com
  • http://www.springer.com/de/eproducts/springermaterials

Part of the book series: Landolt-Börnstein: Numerical Data and Functional Relationships in Science and Technology - New Series (LANDOLT 3, volume 11B)

Part of the book sub series: Advanced Materials and Technologies (LANDOLT 8)

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Table of contents (48 chapters)

  1. Front Matter

    Pages I-IX
    Download chapter PDF

  2. 2 Transition metal hard magnetic phases

    • C. DjĂ©ga-Mariadassou
    Pages 1-2

  3. 2.1 Disordered solid solution Co100–xPt x (0 < x ≤ 40)

    • C. DjĂ©ga-Mariadassou
    Pages 3-4

  4. 2.1.1.2 Single-phase solid solution Co100–xPt x (0 < x ≤ 40): Magnetic properties and nanostructure

    • C. DjĂ©ga-Mariadassou
    Pages 5-7

  5. 2.1.2 Co100–xPt x -based solid solution heterocomposites

    • C. DjĂ©ga-Mariadassou
    Pages 8-14

  6. 2.1.2.2 Co100–xPt x -based solid solution heterocomposites: Magnetic properties and nanostructure

    • C. DjĂ©ga-Mariadassou
    Pages 15-26

  7. 2.1.2.3 Co100–xPt x -based solid solution heterocomposites: Transport properties

    • C. DjĂ©ga-Mariadassou
    Pages 27-28

  8. 2.1.2.4 Co100–xPt x -based solid solution heterocomposites: Mechanical properties

    • C. DjĂ©ga-Mariadassou
    Pages 29-30

  9. 2.1.2.5 Co100–xPt x -based solid solution heterocomposites: Corrosion properties

    • C. DjĂ©ga-Mariadassou
    Pages 31-32

  10. 2.2 Ordered hexagonal Co3Pt phase

    • C. DjĂ©ga-Mariadassou
    Pages 33-34

  11. 2.2.2 Ordered hexagonal Co3Pt phase: Magnetic properties and nanostructure

    • C. DjĂ©ga-Mariadassou
    Pages 35-36

  12. 2.2.3 Ordered hexagonal Co3Pt phase: Magneto-optical properties

    • C. DjĂ©ga-Mariadassou
    Pages 37-38

  13. 2.2.4 Ordered hexagonal Co3Pt phase: Mechanical properties

    • C. DjĂ©ga-Mariadassou
    Pages 39-40

  14. 2.3 AB-based nanomaterials (A = Co, Fe; B = Pt, Pd)

    • C. DjĂ©ga-Mariadassou
    Pages 41-43

  15. 2.3.1 CoPt-based nanomaterials

    • C. DjĂ©ga-Mariadassou
    Pages 44-46

  16. 2.3.1.1.2 CoPt-based homocomposites: Thermodynamic characteristics

    • C. DjĂ©ga-Mariadassou
    Pages 47-48

  17. 2.3.1.1.3 CoPt-based homocomposites: Magnetic properties and nanostructure

    • C. DjĂ©ga-Mariadassou
    Pages 49-51

  18. 2.3.1.1.4 CoPt-based homocomposites: Electrochemical characteristics

    • C. DjĂ©ga-Mariadassou
    Pages 52-53

  19. 2.3.1.2 CoPt-based heterocomposites

    • C. DjĂ©ga-Mariadassou
    Pages 54-65

  20. 2.3.1.2.2 CoPt-based heterocomposites: Magnetic properties and nanostructure

    • C. DjĂ©ga-Mariadassou
    Pages 66-89
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Keywords

About this book

The new profile of modern hard magnetic materials is supported by the recent conjunction of the nanocrystalline state responsible for the extrinsic magnetic properties with on the one hand the existence of the two families of intermetallic compounds possessing the three intrinsic magnetic characteristics required for high performance magnets (strong uniaxial magnetocrystalline anisotropy, elevated Curie temperature, and important magnetic moment) and on the other hand the opportunities of adapting the global magnetic characteristics to the profile of specific demands.

The new generation of those remarkable alloys covers rare-earths (R = Nd, Pr, Sm) and 3d transition metals (T = Fe, Co) alloys for the former and 3d transition metal (Fe, Co) with 4d (Pd) and 5d (Pt) transition metals for the latter. Besides the use of these alloys in many components of electromechanical and electronic devices, their high anisotropy values made these compounds prominent candidates for ultra high density recording applications due to the feasibility of smaller grains still magnetically thermally stable.

Editors and Affiliations

  • Faculty of Physics, Babes-Bolyai University, Cluj-Napoca, Romania

    E. Burzo

  • Cluj-Napoca Branch, Romanian Academy of Science, Cluj-Napoca, Romania

    E. Burzo

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