Piezoelectric Transducers : Materials, Devices and Applications

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Autore:	Sanchez-Rojas Jose Luis
Titolo:	Piezoelectric Transducers : Materials, Devices and Applications
Pubblicazione:	Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica:	1 electronic resource (524 p.)
Soggetto topico:	History of engineering & technology
Soggetto non controllato:	cylindrical composite
	piezoceramic/epoxy composite
	electromechanical characteristics
	transducer
	piezoelectric actuators
	positioning
	trajectory control
	numerical analysis
	trajectory planning
	square piezoelectric vibrator
	resonance
	piezoelectric diaphragm pump
	flexible support
	piezoelectric resonance pump
	piezoelectric ceramics actuators
	hysteresis modeling
	Bouc-Wen model
	P-type IL
	MFA control
	SM control
	evidence theory
	active vibration control
	piezoelectric smart structure
	piezoelectric material
	multiphysics simulation
	finite element method (FEM)
	fluid-structure interaction (FSI)
	micro electromechanical systems (MEMS)
	traveling waves
	piezoelectric
	microactuator
	MEMS
	piezoelectric current sensing device
	two-wire power cord
	cymbal structure
	force amplification effect
	sensitivity
	ciliary bodies touch beam
	piezoelectric tactile feedback devices
	anisotropic vibration tactile model
	human factor experiment
	nondestructive testing
	maturity method
	concrete early-age strength
	SmartRock
	ultrasonic waves
	PZT (piezoelectric) sensors
	structural health monitoring
	AlN thin film
	piezoelectric effect
	resonant accelerometer
	z-axis
	debonding
	non-destructive testing
	electromechanical impedance
	damage detection
	impedance-based technique
	damage depth
	piezoelectric vibration energy harvester
	frequency up-conversion mechanism
	impact
	PZT thick film
	piezoelectric ceramic materials
	Duhem model
	hysteresis model
	class-C power amplifier
	diode expander
	piezoelectric transducers
	point-of-care ultrasound systems
	transverse impact
	frequency up-conversion
	piezoelectric bimorph
	human-limb motion
	hybrid energy harvester
	cascade-connected transducer
	low frequency
	small size
	finite element
	acoustic telemetry
	measurement while drilling
	energy harvesting
	pipelines
	underwater networks
	wireless sensor networks
	control algorithm
	waterproof
	coating
	reliability
	flexible micro-devices
	aqueous environments
	seawater
	capacitive pressure sensors
	in-situ pressure sensing
	sensor characterization
	physiological applications
	cardiac output
	aluminum nitride
	resonator
	damping
	quality factor
	electromechanical coupling
	implantable middle ear hearing device
	piezoelectric transducer
	stimulating site
	finite element analysis
	hearing compensation
	adaptive lens
	piezoelectric devices
	fluid-structure interaction
	moving mesh
	thermal expansion
	COMSOL
	petroleum acoustical-logging
	piezoelectric cylindrical-shell transducer
	center-frequency
	experimental-measurement
	piezoelectricity
	visual servo control
	stepping motor
	nano-positioner
	stick-slip
	piezoelectric energy harvester
	cut-in wind speed
	cut-out wind speed
	energy conservation method
	critical stress method
	piezoelectric actuator
	lever mechanism
	analytical model
	stick-slip frication
	nanopositioning stage
	piezoelectric hysteresis
	mark point recognition
	piecewise fitting
	compensation control
	piezo-electromagnetic coupling
	up-conversion
	vibration energy harvester
	multi-directional vibration
	low frequency vibration
	hysteresis compensation
	single-neuron adaptive control
	Hebb learning rules
	supervised learning
	vibration-based energy harvesting
	multimodal structures
	frequency tuning
	nonlinear resonator
	bistability
	magnetostatic force
	robot
	miniature
	traveling wave
	leg
	piezoelectric actuators (PEAs)
	asymmetric hysteresis
	Prandtl-Ishlinskii (PI) model
	polynomial-modified PI (PMPI) model
	feedforward hysteresis compensation
	PIN-PMN-PT
	1-3 composite
	high frequency
	phased array
Persona (resp. second.):	Sanchez-RojasJose Luis
Sommario/riassunto:	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.
Altri titoli varianti:	Piezoelectric Transducers
Titolo autorizzato:	Piezoelectric Transducers
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910674028803321
Lo trovi qui:	Univ. Federico II
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