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Smart Structures and Systems Volume 16, Number 3, September 2015 , pages 479-496 DOI: https://doi.org/10.12989/sss.2015.16.3.479 |
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A finite element analysis of a new design of a biomimetic shape memory alloy artificial muscle |
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Moez Ben Jaber, Mohamed A. Trojette and Fehmi Najar
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Abstract | ||
In this work, a novel artificial circular muscle based on shape memory alloy (S.M.A.) is proposed. The design is inspired from the natural circular muscles found in certain organs of the human body such as the small intestine. The heating of the prestrained SMA artificial muscle will induce its contraction. In order to measure the mechanical work provided in this case, the muscle will be mounted on a silicone rubber cylindrical tube prior to heating. After cooling, the reaction of the rubber tube will involve the return of the muscle to its prestrained state. A finite element model of the new SMA artificial muscle was built using the software \"ABAQUS\". The SMA thermomechanical behavior law was implemented using the user subroutine \"UMAT\". The numerical results of the finite element analysis of the SMA muscle are presented to shown that the proposed design is able to mimic the behavior of a natural circular muscle. | ||
Key Words | ||
shape memory alloy; bioinspiration; biomimetic; new design; artificial muscle; finite element analysis | ||
Address | ||
Moez Ben Jaber, Systems and Applied Mechanics Research Laboratory, Tunisia Polytechnic School, University of Carthage, B.P. 743, La Marsa 2078, Tunisia ;National Engineering School of Tunis, University of El-Manar, BP 37, Le Belvédère 1002 Tunis, Tunisia Mohamed A. Trojette, College of Sciences and Techniques of Tunis, University of Tunis, BP 56, 5 Avenue Taha Hussein, Bâb Manara, Tunis, Tunisia Fehmi Najar, Systems and Applied Mechanics Research Laboratory, Tunisia Polytechnic School, University of Carthage, B.P. 743, La Marsa 2078, Tunisia | ||