2023
DOI: 10.3390/s23031545
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Development and Prospect of Smart Materials and Structures for Aerospace Sensing Systems and Applications

Abstract: The rapid development of the aviation industry has put forward higher and higher requirements for material properties, and the research on smart material structure has also received widespread attention. Smart materials (e.g., piezoelectric materials, shape memory materials, and giant magnetostrictive materials) have unique physical properties and excellent integration properties, and they perform well as sensors or actuators in the aviation industry, providing a solid material foundation for various intellige… Show more

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Cited by 26 publications
(10 citation statements)
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“…The tremendous surface area of the MWCNT, which can interact with a substantial amount of polymer chains in the rubber, is the reason for this rise in hysteresis loss. It also leads to more bonds breaking and reforming under cyclic loading, which causes more energy to be lost as heat. , Due to its increased hysteresis loss, the composite is better suited to vibration-dampening and shock absorption applications. , More hysteresis loss occurs during the initial cycle due to the higher amount of bond breakage and reformation. As the number of cycles increases, the rate of bond breakage and reformation is reduced, and an equilibrium occurs in the bond breakage and reformation.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The tremendous surface area of the MWCNT, which can interact with a substantial amount of polymer chains in the rubber, is the reason for this rise in hysteresis loss. It also leads to more bonds breaking and reforming under cyclic loading, which causes more energy to be lost as heat. , Due to its increased hysteresis loss, the composite is better suited to vibration-dampening and shock absorption applications. , More hysteresis loss occurs during the initial cycle due to the higher amount of bond breakage and reformation. As the number of cycles increases, the rate of bond breakage and reformation is reduced, and an equilibrium occurs in the bond breakage and reformation.…”
Section: Resultsmentioning
confidence: 99%
“…40,41 Due to its increased hysteresis loss, the composite is better suited to vibration-dampening and shock absorption applications. 42,43 More hysteresis loss occurs during the initial cycle due to the higher amount of bond breakage and reformation. As the number of cycles increases, the rate of bond breakage and reformation is reduced, and an equilibrium occurs in the bond breakage and reformation.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…Remark 2: Changing the design parameter in (24), the transient response of the twist angle, angular speed, and temperature states are affected as shown in Figure 4. The tuning of the parameter directly affects the convergence of the actuator states.…”
Section: Numerical Resultsmentioning
confidence: 99%
“…Consider an SMA model wire with a small diameter and a lumped capacitance, where the internal thermal gradient is small and the latent heat effects are negligible. The following lumped-capacitance thermal and Liang-Brinson phenomenological model was found to be adequate for this study [24].…”
Section: A Thermomechanical Modelingmentioning
confidence: 94%
“…They can assist in procedures involving delicate blood vessels, nerves, or other tiny anatomical structures. Moreover, Micro robots can be utilized in tissue engineering approaches to assemble and manipulate cells or bio-engineered constructs, enabling the development of complex and functional tissue [36].…”
Section: Advantages and Disadvantagesmentioning
confidence: 99%