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Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology

Conventional UHMWPE molding involves long pressure holding duration, nevertheless in the presence of filler such as cellulose nanofiber (CNF), this may contribute to filler degradation. This study optimized the compression molding parameters of UHMWPE/ CNF bio-nanocomposite by using response surfac...

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Main Authors: Sharip, Nur Sharmila, Ariffin, Hidayah, Andou, Yoshito, Kamal Bahrin, Ezyana, Jawaid, Mohammad, Md Tahir, Paridah, Ibrahim, Nor Azowa
Format: Article
Language:English
Published: Universiti Putra Malaysia Press 2020
Online Access:http://psasir.upm.edu.my/id/eprint/73122/1/FIBER.pdf
http://psasir.upm.edu.my/id/eprint/73122/
http://www.pertanika.upm.edu.my/pjst/browse/special-issue?article=JST(S)-0576-2020
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spelling my.upm.eprints.731222021-08-17T22:51:50Z http://psasir.upm.edu.my/id/eprint/73122/ Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology Sharip, Nur Sharmila Ariffin, Hidayah Andou, Yoshito Kamal Bahrin, Ezyana Jawaid, Mohammad Md Tahir, Paridah Ibrahim, Nor Azowa Conventional UHMWPE molding involves long pressure holding duration, nevertheless in the presence of filler such as cellulose nanofiber (CNF), this may contribute to filler degradation. This study optimized the compression molding parameters of UHMWPE/ CNF bio-nanocomposite by using response surface methodology (RSM) in consideration of temperature, pressure and duration as variables. An optimal processing condition of 180°C, 15 MPa, and 20 minutes contributed to more than 80% desirability with tensile strength, yield strength, elongation at break, and Young’s modulus values of 22.83 MPa, 23.14 MPa, 487.31%, and 0.391 GPa, accordingly. Mechanical properties of UHMWPE/CNF bio-nanocomposites molded at optimized processing conditions were comparably similar to those prepared at conventional processing condition, and with the advantage of having shorter processing time. The results presented herewith provides insight towards a more practical approach for UHMWPE/CNF bio-nanocomposites consolidation process. Universiti Putra Malaysia Press 2020 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/73122/1/FIBER.pdf Sharip, Nur Sharmila and Ariffin, Hidayah and Andou, Yoshito and Kamal Bahrin, Ezyana and Jawaid, Mohammad and Md Tahir, Paridah and Ibrahim, Nor Azowa (2020) Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology. Pertanika Journal of Science and Technology, 28 (spec. 2). pp. 299-316. ISSN 0128-7680; ESSN: 2231-8526 http://www.pertanika.upm.edu.my/pjst/browse/special-issue?article=JST(S)-0576-2020 10.47836/pjst.28.S2.23
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Conventional UHMWPE molding involves long pressure holding duration, nevertheless in the presence of filler such as cellulose nanofiber (CNF), this may contribute to filler degradation. This study optimized the compression molding parameters of UHMWPE/ CNF bio-nanocomposite by using response surface methodology (RSM) in consideration of temperature, pressure and duration as variables. An optimal processing condition of 180°C, 15 MPa, and 20 minutes contributed to more than 80% desirability with tensile strength, yield strength, elongation at break, and Young’s modulus values of 22.83 MPa, 23.14 MPa, 487.31%, and 0.391 GPa, accordingly. Mechanical properties of UHMWPE/CNF bio-nanocomposites molded at optimized processing conditions were comparably similar to those prepared at conventional processing condition, and with the advantage of having shorter processing time. The results presented herewith provides insight towards a more practical approach for UHMWPE/CNF bio-nanocomposites consolidation process.
format Article
author Sharip, Nur Sharmila
Ariffin, Hidayah
Andou, Yoshito
Kamal Bahrin, Ezyana
Jawaid, Mohammad
Md Tahir, Paridah
Ibrahim, Nor Azowa
spellingShingle Sharip, Nur Sharmila
Ariffin, Hidayah
Andou, Yoshito
Kamal Bahrin, Ezyana
Jawaid, Mohammad
Md Tahir, Paridah
Ibrahim, Nor Azowa
Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
author_facet Sharip, Nur Sharmila
Ariffin, Hidayah
Andou, Yoshito
Kamal Bahrin, Ezyana
Jawaid, Mohammad
Md Tahir, Paridah
Ibrahim, Nor Azowa
author_sort Sharip, Nur Sharmila
title Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
title_short Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
title_full Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
title_fullStr Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
title_full_unstemmed Parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
title_sort parameters optimization in compression molding of ultrahigh molecular weight polyethylene/cellulose nanofiber bionanocomposites by using response surface methodology
publisher Universiti Putra Malaysia Press
publishDate 2020
url http://psasir.upm.edu.my/id/eprint/73122/1/FIBER.pdf
http://psasir.upm.edu.my/id/eprint/73122/
http://www.pertanika.upm.edu.my/pjst/browse/special-issue?article=JST(S)-0576-2020
_version_ 1709668977212391424
score 13.211869

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