Effect of interphase parameters on elastic modulus prediction for cellulose nanocrystal fiber reinforced polymer composite

Lim Joong Yeon; Kim Han-Wool; Park Min-Wook

doi:10.1515/secm-2020-0024

Science and Engineering of Composite Materials (Aug 2020)

Effect of interphase parameters on elastic modulus prediction for cellulose nanocrystal fiber reinforced polymer composite

Lim Joong Yeon,
Kim Han-Wool,
Park Min-Wook

Affiliations

Lim Joong Yeon: Dongguk University Seoul, SeoulKorea
Kim Han-Wool: Dongguk University Seoul, SeoulKorea
Park Min-Wook: Dongguk University Seoul, SeoulKorea

DOI: https://doi.org/10.1515/secm-2020-0024
Journal volume & issue: Vol. 27, no. 1
pp. 226 – 235

Abstract

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In this study, the effective elastic modulus (Ec) of a cellulose nanocrystal fiber reinforced polymer composite was evaluated using the Mori-Tanaka and finite element (FE) model. The FE model was generated using a representative volume element with a periodic boundary condition. The mass fractions of the fiber in the composites (MFf) were set to 1, 2, and 3 wt.%. Elastic modulus values for interphase were input and were either uniform or exhibited a gradient. The E c for the uniform interphase region increased significantly with MFf, but was relatively low for interphase regions exhibiting a gradient. The results show that interphase parameters must be considered carefully when predicting Ec using the FE model.

Published in Science and Engineering of Composite Materials

ISSN: 0792-1233 (Print); 2191-0359 (Online)
Publisher: De Gruyter
Country of publisher: Poland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.degruyter.com/view/j/secm

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