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Micromechanics Models for Viscoelastic Plain-Weave Composite Tape Springs

Kwok, Kawai and Pellegrino, Sergio (2017) Micromechanics Models for Viscoelastic Plain-Weave Composite Tape Springs. AIAA Journal, 55 (1). pp. 309-321. ISSN 0001-1452.

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The viscoelastic behavior of polymer composites decreases the deployment force and the postdeployment shape accuracy of composite deployable space structures. This paper presents a viscoelastic model for single-ply cylindrical shells (tape springs) that are deployed after being held folded for a given period of time. The model is derived from a representative unit cell of the composite material, based on the microstructure geometry. Key ingredients are the fiber volume density in the composite tows and the constitutive behavior of the fibers (assumed to be linear elastic and transversely isotropic) and of the matrix (assumed to be linear viscoelastic). Finite-element-based homogenizations at two scales are conducted to obtain the Prony series that characterize the orthotropic behavior of the composite tow, using the measured relaxation modulus of the matrix as an input. A further homogenization leads to the lamina relaxation ABDABD matrix. The accuracy of the proposed model is verified against the experimentally measured time-dependent compliance of single lamina in either pure tension or pure bending. Finite element simulations of single-ply tape springs based on the proposed model are compared to experimental measurements that were also obtained during this study.

Item Type:Article
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URLURL TypeDescription
Kwok, Kawai0000-0001-6876-4267
Pellegrino, Sergio0000-0001-9373-3278
Additional Information:© 2016 by Kawai Kwok and Sergio Pellegrino. Published by the American Institute of Aeronautics and Astronautics, Inc., with permission. Received 19 January 2016; revision received 23 June 2016; accepted for publication 24 June 2016; published online 14 October 2016. The authors thank Professor Wolfgang Knauss at the California Institute of Technology for helpful discussions and Gary Patz at Patz Materials Technologies for providing materials used for the present study. The award of a doctoral research fellowship from the Croucher Foundation in Hong Kong to Kawai Kwok is gratefully acknowledged. Financial support from the Northrop Grumman Corporation is gratefully acknowledged.
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Croucher FoundationUNSPECIFIED
Northrop Grumman CorporationUNSPECIFIED
Issue or Number:1
Record Number:CaltechAUTHORS:20170216-123337810
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Official Citation:Kawai Kwok, Sergio Pellegrino. "Micromechanics Models for Viscoelastic Plain-Weave Composite Tape Springs", AIAA Journal, Vol. 55, No. 1 (2017), pp. 309-321.
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:74378
Deposited By: George Porter
Deposited On:16 Feb 2017 21:25
Last Modified:03 Oct 2019 16:38

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