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Recent Advances in Smart Materials for Sensor and Actuator Applications
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This Reprint presents a curated collection of research articles focused on recent advances in smart materials for sensor and actuator applications. Smart materials are advanced materials that intelligently respond to various external physical or chemical stimuli (such as magnetic fields, electric fields, temperature, stress, pH, etc.) by altering their own mechanical, electrical, or optical properties in a predictable manner. Thanks to these unique characteristics, smart materials have become one of the most dynamic research topics in engineering and science over the past few decades. The application of smart materials, especially in the fields of sensors and actuators, is enabling innovations that surpass the limitations of conventional technologies. Materials such as piezoelectric materials, shape memory alloys (SMAs), magnetorheological (MR) and electrorheological (ER) fluids/elastomers, and electroactive polymers (EAPs) are being utilized as key components in diverse systems for high-sensitivity sensing, precise motion control, vibration damping, and energy harvesting. This Reprint aimed to highlight the latest research achievements and innovative technological advancements in the field of smart materials for sensor and actuator applications.
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Keywords
- Annular radial ducts
- Autonomous features
- Bouc–Wen model
- Cement strength
- Chaos
- conducting polymer
- convolutional neural network
- Dilute polymerization
- direct magnetoelectric effect
- dynamic model
- Eigenfrequency
- Electric actuators
- electric vehicle
- gauge factor
- hydrogel
- in-wheel motor
- laminated composites
- Linear actuators
- Lyapunov exponent
- Magnetic field control mode
- Magnetic field sensing
- magnetoactive elastomer
- Magnetorheological (MR) fluid
- magnetorheological damper
- Magnetorheological elastomers
- magnetorheological fluid
- Magnetorheological plastomer
- MRE
- Multi-plate MR clutch
- Multilayer cantilever
- PDMS
- permanent magnet
- piezoelectric polymer
- piezoelectric transducers
- polyaniline
- Polyvinyl Alcohol
- power consumption
- Rattle
- Recurrence patterns
- Renewable system
- Rotary actuators
- scarce data
- self-assembled monolayer
- Semiactive suspension
- Skin electronic
- Smart aggregates
- soft gripper
- soft sensors
- Spherical actuators
- Squeak
- strain sensor
- stretchable sensor
- Structural health monitoring
- Structural vibration
- Synchroextracting transform
- Torque transmission
- Vibrating screen
- Vibration trajectory control
- Wearable Device
Links
DOI: 10.3390/books978-3-7258-6485-0Editions