TY - JOUR
T1 - Mechanical property improvement of oil palm empty fruit bunch composites by hybridization using ramie fibers on epoxy-CNT matrices
AU - Wulan, Praswasti Pembangun Dyah Kencana
AU - Yolanda, Yogi
N1 - Funding Information:
The author would like to thank the Directorate of Research and Community Service – Universitas Indonesia for research funding through The Hibah Publikasi Terindeks Internasional (PUTI) Pascasarjana Tahun Anggaran 2022-2023, with the Contract Number, Nomor: NKB-334/UN2.RST/HKP.05.00/2022.
Publisher Copyright:
© 2023 the author(s), published by De Gruyter.
PY - 2023/1/1
Y1 - 2023/1/1
N2 - Oil palm empty fruit bunches (OPEFBs) can be transformed into composite boards with higher selling value when their cellulose is used as a fiber. Manufacturing composites with hybridization techniques can improve their properties. This study combined OPEFBs and ramie fibers in an epoxy-carbon nanotube (CNT) matrix. The proportion of OPEFBs and ramie fibers was varied (3:7, 5:5, and 7:3), with a total fiber content of 10% by volume and a matrix of 90% by volume. Alkali treatment using NaOH solution was applied to the fiber to remove impurities from the surface. CNTs were functionalized using nitric acid followed by hydrogen peroxide to improve compatibility. Surface treatment was conducted on fibers and CNTs to increase the bonds between these components in the composite material. The hybridization of OPEFBs/ramie fibers improved the tensile strength in the 3:7TR, 5:5TR, and 7:3TR composites by 127, 37, and 12%, respectively, compared to the 10T composite. The flexural strength of the 5:5TR hybrid composite increased by 120%, and that of the 3:7TR and 7:3TR composites increased by 83% against the 10R composite. The 3:7TR hybrid composite showed the best mechanical properties.
AB - Oil palm empty fruit bunches (OPEFBs) can be transformed into composite boards with higher selling value when their cellulose is used as a fiber. Manufacturing composites with hybridization techniques can improve their properties. This study combined OPEFBs and ramie fibers in an epoxy-carbon nanotube (CNT) matrix. The proportion of OPEFBs and ramie fibers was varied (3:7, 5:5, and 7:3), with a total fiber content of 10% by volume and a matrix of 90% by volume. Alkali treatment using NaOH solution was applied to the fiber to remove impurities from the surface. CNTs were functionalized using nitric acid followed by hydrogen peroxide to improve compatibility. Surface treatment was conducted on fibers and CNTs to increase the bonds between these components in the composite material. The hybridization of OPEFBs/ramie fibers improved the tensile strength in the 3:7TR, 5:5TR, and 7:3TR composites by 127, 37, and 12%, respectively, compared to the 10T composite. The flexural strength of the 5:5TR hybrid composite increased by 120%, and that of the 3:7TR and 7:3TR composites increased by 83% against the 10R composite. The 3:7TR hybrid composite showed the best mechanical properties.
KW - carbon nanotube
KW - epoxy
KW - hybridization
KW - oil palm empty fruit bunch fiber
KW - ramie fiber
UR - http://www.scopus.com/inward/record.url?scp=85161989770&partnerID=8YFLogxK
U2 - 10.1515/secm-2022-0198
DO - 10.1515/secm-2022-0198
M3 - Article
AN - SCOPUS:85161989770
SN - 0792-1233
VL - 30
JO - Science and Engineering of Composite Materials
JF - Science and Engineering of Composite Materials
IS - 1
M1 - 20220198
ER -