Advanced Piezoelectric Materials: Science and TechnologyKenji Uchino Elsevier, 27.09.2010 - 696 Seiten Piezoelectric materials produce electric charges on their surfaces as a consequence of applying mechanical stress. They are used in the fabrication of a growing range of devices such as transducers (used, for example, in ultrasound scanning), actuators (deployed in such areas as vibration suppression in optical and microelectronic engineering), pressure sensor devices (such as gyroscopes) and increasingly as a way of producing energy. Their versatility has led to a wealth of research to broaden the range of piezoelectric materials and their potential uses. Advanced piezoelectric materials: science and technology provides a comprehensive review of these new materials, their properties, methods of manufacture and applications. After an introductory overview of the development of piezoelectric materials, Part one reviews the various types of piezoelectric material, ranging from lead zirconate titanate (PZT) piezo-ceramics, relaxor ferroelectric ceramics, lead-free piezo-ceramics, quartz-based piezoelectric materials, the use of lithium niobate and lithium in piezoelectrics, single crystal piezoelectric materials, electroactive polymers (EAP) and piezoelectric composite materials. Part two discusses how to design and fabricate piezo-materials with chapters on piezo-ceramics, single crystal preparation techniques, thin film technologies, aerosol techniques and manufacturing technologies for piezoelectric transducers. The final part of the book looks at applications such as high-power piezoelectric materials and actuators as well as the performance of piezoelectric materials under stress. With its distinguished editor and international team of expert contributors Advanced piezoelectric materials: science and technology is a standard reference for all those researching piezoelectric materials and using them to develop new devices in such areas as microelectronics, optical, sound, structural and biomedical engineering.
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Seite 6
... reported by E. Sawaguchi, which was read and cited worldwide, and triggered the PZT era. A similar discovery history to that of barium titanate was repeated for the lead zirconate titanate system. The material was discovered by the ...
... reported by E. Sawaguchi, which was read and cited worldwide, and triggered the PZT era. A similar discovery history to that of barium titanate was repeated for the lead zirconate titanate system. The material was discovered by the ...
Seite 9
... reported in Pb(Mg1/3nb2/3)o3 (PMn)21 and Pb(Zn1/3 nb2/3)o3(PZn).22 PMN-based ceramics became major compositions for high k (10,000) capacitors in the 1980s. it is noteworthy to introduce two epoch-making discoveries in the late 1970s ...
... reported in Pb(Mg1/3nb2/3)o3 (PMn)21 and Pb(Zn1/3 nb2/3)o3(PZn).22 PMN-based ceramics became major compositions for high k (10,000) capacitors in the 1980s. it is noteworthy to introduce two epoch-making discoveries in the late 1970s ...
Seite 11
... reported by J. Kuwata, K. Uchino and S. nomura in 1982,25 which was best cited in 1998. note that the MPB composition, 0.91 PZn–0.09 PT, exhibited the maximum for all parameters, as expected, but the highest values in electromechanical ...
... reported by J. Kuwata, K. Uchino and S. nomura in 1982,25 which was best cited in 1998. note that the MPB composition, 0.91 PZn–0.09 PT, exhibited the maximum for all parameters, as expected, but the highest values in electromechanical ...
Seite 13
... reported 15 years earlier have been reconfirmed, and improved data were obtained, aiming at medical acoustic applications.26 in parallel, S. E. Park and T. R. Shrout at The Pennsylvania State University demonstrated strains as large as ...
... reported 15 years earlier have been reconfirmed, and improved data were obtained, aiming at medical acoustic applications.26 in parallel, S. E. Park and T. R. Shrout at The Pennsylvania State University demonstrated strains as large as ...
Seite 14
... reported to be as large as 6–7 pCN–1, 10 times larger than that observed in any other polymer. PVDF has a glass transition temperature (Tg) of about –35°c and is typically 50–60% crystalline. To give the material its piezoelectric ...
... reported to be as large as 6–7 pCN–1, 10 times larger than that observed in any other polymer. PVDF has a glass transition temperature (Tg) of about –35°c and is typically 50–60% crystalline. To give the material its piezoelectric ...
Inhalt
1 | |
87 | |
Part II Preparation methods and applications | 347 |
Part III Application oriented materials development | 559 |
Index | 660 |
Andere Ausgaben - Alle anzeigen
Advanced Piezoelectric Materials: Science and Technology Kenji Uchino Keine Leseprobe verfügbar - 2016 |
Advanced Piezoelectric Materials: Science and Technology Kenji Uchino Keine Leseprobe verfügbar - 2010 |
Häufige Begriffe und Wortgruppen
acoustic actuators Appl applications bulk ceramics characteristics charge coefficient composition constant coupling dependence deposition developed devices dielectric direction displacement domain drive effect elastic electric field electrode electromechanical energy exhibit fabrication factor ferroelectric Figure flux force frequency function grain growth heat higher increasing ions layer lead LiNbO3 loss materials maximum measured mechanical method mode multilayer observed obtained optical orientation particle performance period perovskite phase Phys piezoelectric materials piezoelectric properties plate PMN–PT polarization poled polymer powder prepared produced range reported resonance respectively response rhombohedral sample shown in Fig shows single crystals sintering solid solution sputtered strain stress structure substrate surface Table technique temperature tetragonal thickness thin films transducer transition typical Uchino ultrasonic various vibration voltage wall wave