Book contents
- Frontmatter
- Contents
- Preface
- 1 General Introduction
- 2 Early History of Iron and Steel
- 3 Modern Steel Making
- 4 Constitution of Carbon Steels
- 5 Plastic Strength
- 6 Annealing
- 7 Deformation Mechanisms and Crystallographic Textures
- 8 Substitutional Solid Solutions
- 9 Interstitial Solid Solutions
- 10 Diffusion
- 11 Strain Aging
- 12 Austenite Transformation
- 13 Hardenability
- 14 Tempering and Surface Hardening
- 15 Low-Carbon Sheet Steel
- 16 Sheet Steel Formability
- 17 Alloy Steels
- 18 Other Steels
- 19 Stainless Steels
- 20 Fracture
- 21 Cast Irons
- 22 Magnetic Behavior of Iron
- 23 Corrosion
- Appendix I Physical Properties of Pure Iron
- Appendix II Approximate Hardness Conversions and Tensile Strengths of Steels
- Index
- References
22 - Magnetic Behavior of Iron
Published online by Cambridge University Press: 05 May 2012
- Frontmatter
- Contents
- Preface
- 1 General Introduction
- 2 Early History of Iron and Steel
- 3 Modern Steel Making
- 4 Constitution of Carbon Steels
- 5 Plastic Strength
- 6 Annealing
- 7 Deformation Mechanisms and Crystallographic Textures
- 8 Substitutional Solid Solutions
- 9 Interstitial Solid Solutions
- 10 Diffusion
- 11 Strain Aging
- 12 Austenite Transformation
- 13 Hardenability
- 14 Tempering and Surface Hardening
- 15 Low-Carbon Sheet Steel
- 16 Sheet Steel Formability
- 17 Alloy Steels
- 18 Other Steels
- 19 Stainless Steels
- 20 Fracture
- 21 Cast Irons
- 22 Magnetic Behavior of Iron
- 23 Corrosion
- Appendix I Physical Properties of Pure Iron
- Appendix II Approximate Hardness Conversions and Tensile Strengths of Steels
- Index
- References
Summary
General
Throughout history, magnetism has seemed a mysterious phenomenon. The discovery of lodestone (Fe3O4) led to many myths (Figure 22.1). Probably the first real use of the magnetic phenomenon should be attributed to the Vikings. Their development of the magnetic compass enabled them to travel far at sea even in foggy conditions. The term magnetic behavior usually means ferromagnetic behavior. There are actually two other types of magnetic behavior: diamagnetic behavior, which is a weak repulsion of a magnetic field, and paramagnetism, which is a weak attraction of a magnetic field.
Ferromagnetism, in contrast, is a strong attraction of a magnetic field. There are only a few ferromagnetic elements. The important ones are iron, nickel, and cobalt. A few rare earths are ferromagnetic at low temperatures. Table 22.1 lists all of the ferromagnetic elements and the temperature above which they cease to be ferromagnetic (Curie temperature).
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- Information
- Iron and Steel , pp. 256 - 275Publisher: Cambridge University PressPrint publication year: 2012