Multi-Output Compliant Shape Memory Alloy Bias-Spring Actuators

Multi-Output Compliant Shape Memory Alloy Bias-Spring Actuators

Smart Materials such as Shape Memory Alloys (SMA) play a major role in creating Smart Actuators that are compact and high performing. Traditional SMA bias-spring actuators are only capable of a single linear output. Using topology optimization, compliant SMA bias-spring mechanisms that can create mu...

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Hauptverfasser: Thomas, Sean, Thabuis, Adrien, Martinez, Thomas Guillaume, Perriard, Yves
Format: Web Resource
Sprache:eng
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Zusammenfassung:Smart Materials such as Shape Memory Alloys (SMA) play a major role in creating Smart Actuators that are compact and high performing. Traditional SMA bias-spring actuators are only capable of a single linear output. Using topology optimization, compliant SMA bias-spring mechanisms that can create multi-output displacements from a single bias-spring are designed to improve upon the traditional actuators. These new smart actuators are then simulated using Finite Element Modelling to validate the presence of the Shape Memory Effect.
DOI:10.1109/AIM43001.2020.9158997