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Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)

Cellulose nanowhiskers (CNW) extracted from plant fibers exhibit remarkable properties that make them suitable for use in the development of bionanocomposites. CNW have demonstrated the capability to enhance the properties of a polymer matrix at low filler loading. In this study, poly (lactic acid)...

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Main Authors: Mohamad Haafiz, M. K., Hassan, A., Abdul Khalil, H. P. S., Khan, I., Inuwa, I. M., Saiful Islam, Md., Sohrab Hossain, Md., Syakir, M. I., Nurul Fazita, M. R.
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Published: Elsevier Ltd. 2015
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TP Chemical technology
Online Access:http://eprints.utm.my/id/eprint/57964/
http://www.dx.doi.org/10.1016/j.polymertesting.2015.10.003
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spelling my.utm.579642021-10-01T03:52:24Z http://eprints.utm.my/id/eprint/57964/ Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid) Mohamad Haafiz, M. K. Hassan, A. Abdul Khalil, H. P. S. Khan, I. Inuwa, I. M. Saiful Islam, Md. Sohrab Hossain, Md. Syakir, M. I. Nurul Fazita, M. R. TP Chemical technology Cellulose nanowhiskers (CNW) extracted from plant fibers exhibit remarkable properties that make them suitable for use in the development of bionanocomposites. CNW have demonstrated the capability to enhance the properties of a polymer matrix at low filler loading. In this study, poly (lactic acid) (PLA) bionanocomposites were prepared using the solution casting technique, by incorporating the PLA with the CNW obtained from an oil palm empty fruit bunch (OPEFB). Fourier transform infrared spectroscopy showed no significant changes in the PLA peak positions, which indicates that incorporating the CNW into the PLA did not result in any significant changes in the chemical structure of the PLA. Thermogravimetric analysis, on the other hand, revealed that the bionanocomposites (PLA-CNW) had better thermal stability than the pure PLA. The tensile strength of PLA-CNW increased by 84% with the addition of 3 parts of CNW per hundred resins (phr), and decreased thereafter. Moreover, a linear relationship was observed between the Young's modulus and CNW loading. Elongation at break, however, decreased with the addition of 1-phr CNW, and remained constant with further addition. Transmission electron microscopy revealed that agglomeration of CNW occurred at 5-phr loading, consistent with the tensile strength results. Overall, the CNW obtained from OPEFB can enhance the tensile and the thermal properties of bionanocomposites. Elsevier Ltd. 2015 Article PeerReviewed Mohamad Haafiz, M. K. and Hassan, A. and Abdul Khalil, H. P. S. and Khan, I. and Inuwa, I. M. and Saiful Islam, Md. and Sohrab Hossain, Md. and Syakir, M. I. and Nurul Fazita, M. R. (2015) Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid). Polymer Testing, 48 . pp. 133-139. ISSN 1429-418 http://www.dx.doi.org/10.1016/j.polymertesting.2015.10.003 DOI: 10.1016/j.polymertesting.2015.10.003
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Mohamad Haafiz, M. K.
Hassan, A.
Abdul Khalil, H. P. S.
Khan, I.
Inuwa, I. M.
Saiful Islam, Md.
Sohrab Hossain, Md.
Syakir, M. I.
Nurul Fazita, M. R.
Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
description Cellulose nanowhiskers (CNW) extracted from plant fibers exhibit remarkable properties that make them suitable for use in the development of bionanocomposites. CNW have demonstrated the capability to enhance the properties of a polymer matrix at low filler loading. In this study, poly (lactic acid) (PLA) bionanocomposites were prepared using the solution casting technique, by incorporating the PLA with the CNW obtained from an oil palm empty fruit bunch (OPEFB). Fourier transform infrared spectroscopy showed no significant changes in the PLA peak positions, which indicates that incorporating the CNW into the PLA did not result in any significant changes in the chemical structure of the PLA. Thermogravimetric analysis, on the other hand, revealed that the bionanocomposites (PLA-CNW) had better thermal stability than the pure PLA. The tensile strength of PLA-CNW increased by 84% with the addition of 3 parts of CNW per hundred resins (phr), and decreased thereafter. Moreover, a linear relationship was observed between the Young's modulus and CNW loading. Elongation at break, however, decreased with the addition of 1-phr CNW, and remained constant with further addition. Transmission electron microscopy revealed that agglomeration of CNW occurred at 5-phr loading, consistent with the tensile strength results. Overall, the CNW obtained from OPEFB can enhance the tensile and the thermal properties of bionanocomposites.
format Article
author Mohamad Haafiz, M. K.
Hassan, A.
Abdul Khalil, H. P. S.
Khan, I.
Inuwa, I. M.
Saiful Islam, Md.
Sohrab Hossain, Md.
Syakir, M. I.
Nurul Fazita, M. R.
author_facet Mohamad Haafiz, M. K.
Hassan, A.
Abdul Khalil, H. P. S.
Khan, I.
Inuwa, I. M.
Saiful Islam, Md.
Sohrab Hossain, Md.
Syakir, M. I.
Nurul Fazita, M. R.
author_sort Mohamad Haafiz, M. K.
title Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
title_short Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
title_full Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
title_fullStr Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
title_full_unstemmed Bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
title_sort bionanocomposite based on cellulose nanowhisker from oil palm biomass-filled poly(lactic acid)
publisher Elsevier Ltd.
publishDate 2015
url http://eprints.utm.my/id/eprint/57964/
http://www.dx.doi.org/10.1016/j.polymertesting.2015.10.003
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score 13.187197

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