Ba (Ti, Zr) O3--functional materials from nanopowders to bulk ceramics /
Ianculescu, Adelina.
Ba (Ti, Zr) O3--functional materials from nanopowders to bulk ceramics / Functional materials from nanopowders to bulk ceramics Adelina Ianculescu and Liliana Mitoseriu. - 1 online resource. - Nanotechnology science and technology . - Nanotechnology science and technology series. .
Includes bibliographical references and index.
Ba(ti, zr)o3 -- functional materials: from nanopowders to bulk ceramics -- ba(ti, zr)o3 -- functional materials: from nanopowders to bulk ceramics -- contents -- preface -- 1. state of the art for the batio3-bazro3 system -- 2. preparation and characterization of ba(ti, zr)o3 nanopowders: influence of the processing method on the structural and morphological properties -- 2.1. synthesis -- 2.2. formation mechanism -- 2.3. phase composition and structure -- 2.4. morphology 3. PREPARATION AND CHARACTERISTICS OF BA(TI, ZR)O3 CERAMICS: EFFECT OF COMPOSITION AND GRAIN SIZE ON THE FUNCTIONAL PROPERTIES 3.1. CERAMICS FROM POWDERS PREPARED BY CLASSICAL SOLID STATE REACTION -- 3.1.1. Phase Composition and Microstructure -- 3.1.2. Dielectric Properties -- (a) The Effect of Frequency on the Dielectric Data for the BaTi0.9Zr0.1O3 Ceramics Sintered at Different Temperatures (Size Effects) -- (b) The Role of Composition on the Dielectric Properties of BaZrxTi1-xO3 Ceramics -- (C) Frequency-Dependence of the Dielectric Constant 3.1.3. Ferroelectric Properties (Polarization-Field Responses) (A) Effect of Composition on the P(E) Loops -- (B) Effect of Grain Size on the P(E) Loops -- (C) Characterization by FORC Diagram -- 3.2. CERAMICS FROM POWDERS PREPARED BY THE MODIFIED PECHINI ROUTE -- 3.2.1 Ceramics Produced by Classical Sintering -- (A) Phase Composition and Microstructure -- B) Dielectric Properties -- 3.2.2. Ceramics Produced by Spark Plasma Sintering (SPS) -- (A) Phase Composition, Structure and Microstructure -- (B) Dielectric Behavior -- 4. CONCLUSIONS Acknowledgements references -- index
9781617617799 1617617792
2019713926
Ceramic materials.
Nanoparticles.
Ceramic powders.
Barium compounds.
Titanium compounds.
Zirconium compounds.
TECHNOLOGY & ENGINEERING--Material Science.
Barium compounds.
Ceramic materials.
Ceramic powders.
Nanoparticles.
Titanium compounds.
Zirconium compounds.
Electronic books.
TA455.C43
620.1/4
Ba (Ti, Zr) O3--functional materials from nanopowders to bulk ceramics / Functional materials from nanopowders to bulk ceramics Adelina Ianculescu and Liliana Mitoseriu. - 1 online resource. - Nanotechnology science and technology . - Nanotechnology science and technology series. .
Includes bibliographical references and index.
Ba(ti, zr)o3 -- functional materials: from nanopowders to bulk ceramics -- ba(ti, zr)o3 -- functional materials: from nanopowders to bulk ceramics -- contents -- preface -- 1. state of the art for the batio3-bazro3 system -- 2. preparation and characterization of ba(ti, zr)o3 nanopowders: influence of the processing method on the structural and morphological properties -- 2.1. synthesis -- 2.2. formation mechanism -- 2.3. phase composition and structure -- 2.4. morphology 3. PREPARATION AND CHARACTERISTICS OF BA(TI, ZR)O3 CERAMICS: EFFECT OF COMPOSITION AND GRAIN SIZE ON THE FUNCTIONAL PROPERTIES 3.1. CERAMICS FROM POWDERS PREPARED BY CLASSICAL SOLID STATE REACTION -- 3.1.1. Phase Composition and Microstructure -- 3.1.2. Dielectric Properties -- (a) The Effect of Frequency on the Dielectric Data for the BaTi0.9Zr0.1O3 Ceramics Sintered at Different Temperatures (Size Effects) -- (b) The Role of Composition on the Dielectric Properties of BaZrxTi1-xO3 Ceramics -- (C) Frequency-Dependence of the Dielectric Constant 3.1.3. Ferroelectric Properties (Polarization-Field Responses) (A) Effect of Composition on the P(E) Loops -- (B) Effect of Grain Size on the P(E) Loops -- (C) Characterization by FORC Diagram -- 3.2. CERAMICS FROM POWDERS PREPARED BY THE MODIFIED PECHINI ROUTE -- 3.2.1 Ceramics Produced by Classical Sintering -- (A) Phase Composition and Microstructure -- B) Dielectric Properties -- 3.2.2. Ceramics Produced by Spark Plasma Sintering (SPS) -- (A) Phase Composition, Structure and Microstructure -- (B) Dielectric Behavior -- 4. CONCLUSIONS Acknowledgements references -- index
9781617617799 1617617792
2019713926
Ceramic materials.
Nanoparticles.
Ceramic powders.
Barium compounds.
Titanium compounds.
Zirconium compounds.
TECHNOLOGY & ENGINEERING--Material Science.
Barium compounds.
Ceramic materials.
Ceramic powders.
Nanoparticles.
Titanium compounds.
Zirconium compounds.
Electronic books.
TA455.C43
620.1/4