08052nam 2202293z- 450 991067402880332120231214133542.0(CKB)5400000000041987(oapen)https://directory.doabooks.org/handle/20.500.12854/68983(EXLCZ)99540000000004198720202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPiezoelectric TransducersMaterials, Devices and ApplicationsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (524 p.)3-03936-856-7 3-03936-857-5 Advances in miniaturization of sensors, actuators, and smart systems are receiving substantial industrial attention, and a wide variety of transducers are commercially available or with high potential to impact emerging markets. Substituting existing products based on bulk materials, in fields such as automotive, environment, food, robotics, medicine, biotechnology, communications, and other technologies, with reduced size, lower cost, and higher performance, is now possible, with potential for manufacturing using advanced silicon integrated circuits technology or alternative additive techniques from the mili- to the nano-scale. In this Special Issue, which is focused on piezoelectric transducers, a wide range of topics are covered, including the design, fabrication, characterization, packaging, and system integration or final applications of mili/micro/nano-electro-mechanical systems based transducers.Piezoelectric Transducers History of engineering & technologybicssccylindrical compositepiezoceramic/epoxy compositeelectromechanical characteristicstransducerpiezoelectric actuatorspositioningtrajectory controlnumerical analysistrajectory planningsquare piezoelectric vibratorresonancepiezoelectric diaphragm pumpflexible supportpiezoelectric resonance pumppiezoelectric ceramics actuatorshysteresis modelingBouc-Wen modelP-type ILMFA controlSM controlevidence theoryactive vibration controlpiezoelectric smart structurepiezoelectric materialmultiphysics simulationfinite element method (FEM)fluid-structure interaction (FSI)micro electromechanical systems (MEMS)traveling wavespiezoelectricmicroactuatorMEMSpiezoelectric current sensing devicetwo-wire power cordcymbal structureforce amplification effectsensitivityciliary bodies touch beampiezoelectric tactile feedback devicesanisotropic vibration tactile modelhuman factor experimentnondestructive testingmaturity methodconcrete early-age strengthSmartRockultrasonic wavesPZT (piezoelectric) sensorsstructural health monitoringAlN thin filmpiezoelectric effectresonant accelerometerz-axisdebondingnon-destructive testingelectromechanical impedancedamage detectionimpedance-based techniquedamage depthpiezoelectric vibration energy harvesterfrequency up-conversion mechanismimpactPZT thick filmpiezoelectric ceramic materialsDuhem modelhysteresis modelclass-C power amplifierdiode expanderpiezoelectric transducerspoint-of-care ultrasound systemstransverse impactfrequency up-conversionpiezoelectric bimorphhuman-limb motionhybrid energy harvestercascade-connected transducerlow frequencysmall sizefinite elementacoustic telemetrymeasurement while drillingenergy harvestingpipelinesunderwater networkswireless sensor networkscontrol algorithmwaterproofcoatingreliabilityflexible micro-devicesaqueous environmentsseawatercapacitive pressure sensorsin-situ pressure sensingsensor characterizationphysiological applicationscardiac outputaluminum nitrideresonatordampingquality factorelectromechanical couplingimplantable middle ear hearing devicepiezoelectric transducerstimulating sitefinite element analysishearing compensationadaptive lenspiezoelectric devicesfluid-structure interactionmoving meshthermal expansionCOMSOLpetroleum acoustical-loggingpiezoelectric cylindrical-shell transducercenter-frequencyexperimental-measurementpiezoelectricityvisual servo controlstepping motornano-positionerstick-slippiezoelectric energy harvestercut-in wind speedcut-out wind speedenergy conservation methodcritical stress methodpiezoelectric actuatorlever mechanismanalytical modelstick-slip fricationnanopositioning stagepiezoelectric hysteresismark point recognitionpiecewise fittingcompensation controlpiezo-electromagnetic couplingup-conversionvibration energy harvestermulti-directional vibrationlow frequency vibrationhysteresis compensationsingle-neuron adaptive controlHebb learning rulessupervised learningvibration-based energy harvestingmultimodal structuresfrequency tuningnonlinear resonatorbistabilitymagnetostatic forcerobotminiaturetraveling wavelegpiezoelectric actuators (PEAs)asymmetric hysteresisPrandtl-Ishlinskii (PI) modelpolynomial-modified PI (PMPI) modelfeedforward hysteresis compensationPIN-PMN-PT1-3 compositehigh frequencyphased arrayHistory of engineering & technologySanchez-Rojas Jose Luisedt1338091Sanchez-Rojas Jose LuisothBOOK9910674028803321Piezoelectric Transducers3057845UNINA