000 04383nam a22005415i 4500
001 978-3-540-68683-5
003 DE-He213
005 20161121231048.0
007 cr nn 008mamaa
008 100301s2008 gw | s |||| 0|eng d
020 _a9783540686835
_9978-3-540-68683-5
024 7 _a10.1007/978-3-540-68683-5
_2doi
050 4 _aQC173.45-173.458
072 7 _aPHF
_2bicssc
072 7 _aSCI077000
_2bisacsh
082 0 4 _a530.41
_223
100 1 _aHeywang, Walter.
_eauthor.
245 1 0 _aPiezoelectricity
_h[electronic resource] :
_bEvolution and Future of a Technology /
_cby Walter Heywang, Karl Lubitz, Wolfram Wersing.
264 1 _aBerlin, Heidelberg :
_bSpringer Berlin Heidelberg,
_c2008.
300 _aXVIII, 582 p.
_bonline resource.
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
347 _atext file
_bPDF
_2rda
490 1 _aSpringer Series in Materials Science,
_x0933-033X ;
_v114
505 0 _aBasics and Materials -- Basic Material Quartz and Related Innovations -- The Role of Ferroelectricity for Piezoelectric Materials -- Piezoelectric PZT Ceramics -- Relaxor Ferroelectrics -- Piezoelectric Polymers and Their Applications -- Applications and Innovations -- Electromechanical Frequency Filters -- Ultrasonic Imaging -- High Effective Lead Perovskite Ceramics and Single Crystals for Ultrasonic Imaging -- High-Power Ultrasound Transducers for Therapeutic Applications -- Piezoelectric Motors and Transformers -- Piezoelectric Positioning -- Piezoelectric Injection Systems -- Advanced RF Signal Processing with Surface Acoustic Waves on Piezoelectric Single Crystal Substrates -- Piezoelectric Films for Innovations in the Field of MEMS and Biosensors -- Piezoelectric Composites by Solid Freeform Fabrication: A Nature-Inspired Approach -- Characterisation Methods -- Microstructural Analysis Based on Microscopy and X-Ray Diffraction -- Small Signal Resonance Methods -- Large Signal Resonance and Laser Dilatometer Methods -- Ferroelastic Characterization of Piezoelectrics -- Multiscale Modelling -- First-Principles Theories of Piezoelectric Materials -- Thermodynamic Theory -- Effective Medium Theories -- Finite-Element Modelling of Piezoelectric Actuators: Linear and Nonlinear Analyses -- The Future -- Trends in Ferroelectric/Piezoelectric Ceramics.
520 _aDiscovered in 1880, piezoelectric materials play a key role in an innovative market of several billions of dollars. Recent advances in applications derive from new materials and their development, as well as to new market requirements. With the exception of quartz, ferroelectric materials are used for they offer both high efficiency and sufficient versatility to meet adequately the multidimensional requirements for application. Consequently, strong emphasis is placed on tailoring materials and technology, whether one deals with single crystals, ceramics or plastic materials. Tailoring requires a basic understanding of both physical principles and technical possibilities and limitations. This report elucidates these developments by a broad spectrum of examples, comprising ultrasound in medicine and defence industry, frequency control, signal processing by SAW-devices, sensors, actuators, including novel valves for modern motor management. It delivers a mutual fertilization of technology push and market pull that should be of interest not only to materials scientists or engineers but also to managers who dedicate themselves to a sound future-oriented R&D policy.
650 0 _aPhysics.
650 0 _aCondensed matter.
650 0 _aEngineering.
650 0 _aElectronics.
650 0 _aMicroelectronics.
650 0 _aStructural materials.
650 1 4 _aPhysics.
650 2 4 _aCondensed Matter Physics.
650 2 4 _aEngineering, general.
650 2 4 _aElectronics and Microelectronics, Instrumentation.
650 2 4 _aStructural Materials.
700 1 _aLubitz, Karl.
_eauthor.
700 1 _aWersing, Wolfram.
_eauthor.
710 2 _aSpringerLink (Online service)
773 0 _tSpringer eBooks
776 0 8 _iPrinted edition:
_z9783540686804
830 0 _aSpringer Series in Materials Science,
_x0933-033X ;
_v114
856 4 0 _uhttp://dx.doi.org/10.1007/978-3-540-68683-5
912 _aZDB-2-PHA
950 _aPhysics and Astronomy (Springer-11651)
999 _c507999
_d507999