Functional Ceramics Through Mechanochemical Activation

Name: Functional Ceramics Through Mechanochemical Activation
Brand: Institute of Physics Publishing
Price: 157.99 EUR
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Ling Bing Kong(Editor)

Institute of Physics Publishing

Published on 22. November 2019

400 pages

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978-0-7503-2191-4 (ISBN)

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Intro
Preface
Acknowledgments
Contributors
Chapter 1 Introduction
1.1 Brief history
1.2 Organization of the book
Acknowledgments
References
Chapter 2 Principles of mechanochemical activation
2.1 High-energy mechanochemical activation
2.1.1 Vibrational shake mills
2.1.2 Planetary ball mills
2.1.3 Attritor mills
2.1.4 Processing parameters
2.2 Modeling and simulations
2.3 Concluding remarks
Acknowledgments
References
Chapter 3 Ferroelectric ceramics (I)
3.1 Background
3.2 Lead-containing unary ferroelectric ceramics
3.2.1 Lead titanate and lead lanthanum titanate
3.2.2 Lead zirconate titanate
3.2.3 Lead lanthanum zirconate titanate
3.3 Antiferroelectric ceramics
3.4 Discussion and conclusions
Acknowledgments
References
Chapter 4 Ferroelectric ceramics (II)
4.1 Brief introduction
4.2 Unary phase
4.2.1 Lead magnesium niobate
4.2.2 Lead zinc niobate
4.2.3 Lead iron niobate and lead iron tungstate
4.2.4 Lead scandium tantalate
4.3 Binary solid solutions
4.3.1 PMN based solid solutions
4.3.2 PZN based solid solutions
4.3.3 Other relaxor related solid solutions
4.4 Ternary solid solutions
Acknowledgments
References
Chapter 5 Ferroelectric ceramics (III)
5.1 Brief introduction
5.2 BaTiO3 based materials
5.3 Bismuth containing ferroelectric materials
5.3.1 Bi4Ti3O12
5.3.2 Other Aurivillius ferroelectrics
5.4 Other lead-free ferroelectric materials
5.5 Multiferroic bismuth ferrite
5.6 Conclusions
Acknowledgments
References
Chapter 6 Ferrite ceramics (I)
6.1 Introduction
6.2 Mg-Cu-Co ferrite ceramics
6.3 Bi2O3 doped MgFe1.98O4 ferrite ceramics
6.4 Conclusions and perspectives
Acknowledgments
References
Chapter 7 Ferrite ceramics (II)
7.1 Li-ferrite ceramics
7.2 Ni-Zn-Co ferrite ceramics
7.3 Effect of processing
Acknowledgments
References
Chapter 8 Mullite ceramics (I)
8.1 Introduction
8.2 Mullitization, densification and anisotropic grain growth
8.3 The effects of doping with transitional oxides and milling media
8.4 Summary
Acknowledgments
References
Chapter 9 Mullite ceramics (II)
9.1 The effects of rare-earth oxides
9.2 The effects of other oxides
9.3 Anisotropic grain growth of pure mullite
Acknowledgments
References
Chapter 10 Other oxides
10.1 Introduction
10.2 Selected samples
10.3 Summary
Acknowledgments
References

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Functional Ceramics Through Mechanochemical Activation

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