A study on interactive fiber rubber composite structures subjected to bend-twist coupling

Achyuth Ram Annadata; Anett Endesfelder; Markus Koenigsdorff; Johannes Mersch; Thomas Gereke; Martina Zimmermann; Chokri Cherif

doi:10.1088/2053-1591/ad8397

Materials Research Express (Jan 2024)

A study on interactive fiber rubber composite structures subjected to bend-twist coupling

Achyuth Ram Annadata,
Anett Endesfelder,
Markus Koenigsdorff,
Johannes Mersch,
Thomas Gereke,
Martina Zimmermann,
Chokri Cherif

Affiliations

Achyuth Ram Annadata: ORCiD; Institute of Textile Machinery and High Performance Material Technology , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany
Anett Endesfelder: ORCiD; Institute of Materials Science , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany; Fraunhofer Institute of Material and Beam Technology (IWS) , 01277 Dresden, Germany
Markus Koenigsdorff: ORCiD; Institute of Solid-State Electronics , Faculty of Electrical and Computer Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany
Johannes Mersch: ORCiD; Institute of Textile Machinery and High Performance Material Technology , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany; Institute of Measurement Technology , Johannes Kepler University Linz, 4040 Linz, Austria
Thomas Gereke: ORCiD; Institute of Textile Machinery and High Performance Material Technology , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany
Martina Zimmermann: Institute of Materials Science , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany; Fraunhofer Institute of Material and Beam Technology (IWS) , 01277 Dresden, Germany
Chokri Cherif: Institute of Textile Machinery and High Performance Material Technology , Faculty of Mechanical Science And Engineering, TUD Dresden University of Technology, 01062 Dresden, Germany

DOI: https://doi.org/10.1088/2053-1591/ad8397
Journal volume & issue: Vol. 11, no. 10
p. 105703

Abstract

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This paper investigates the deformation behavior of shape memory alloy (SMA)-integrated fiber-reinforced composites, with an emphasis on how different fiber orientations influence bend-twist coupling. The study combines experimental analysis, finite element simulations using Ansys, and analytical modeling via Classical Laminate Theory (CLT) to assess the mechanical response of these composites. The experiments revealed that composites with higher fiber angles (60°) exhibited dominant twisting behavior, while those with lower angles (30° and 45°) showed more pronounced bending deformation. The simulations corroborated these trends, offering detailed insights into the displacement behavior. The CLT model further predicted a decrease in deflection with increasing fiber angles, which was consistent with experimental results, although some deviations in Z-deformation were attributed to material and manufacturing factors. This research highlights the critical role of fiber orientation in achieving desired deformations in SMA-integrated composites, offering valuable insights for the design of adaptive structures. The findings demonstrate the potential for optimizing fiber configurations to tailor bend-twist coupling in advanced composite applications.

Published in Materials Research Express

ISSN: 2053-1591 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology
Website: https://iopscience.iop.org/journal/2053-1591

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