Extraction and characterization of a novel cellulosic fiber derived from the bark of Rosa hybrida plant

The current investigation aims to choose an alternate potential replacement for the nonbiodegradable synthetic fibers used in polymer composites. This goal motivated the thorough characterization of Rosa hybrida bark (RHB) fibers. The research explored fiber characterization such as morphological, m...

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Published in:International journal of biological macromolecules 2024-02, Vol.257 (Pt 1), p.128446-128446, Article 128446
Main Authors: Shibly, Mohammad Abul Hasan, Islam, Md. Ikramul, Rahat, Md. Nur Hossain, Billah, Muhammad Maruf, Rahman, Mohammad Mahbubur, Bashar, Muhammad Shahriar, Abdul, Basit, Alorfi, Hajer S.
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Language:English
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Cellulosic fibers
Chemical characteristics
Mechanical properties
Morphological studies
Rosa hybrida bark fibers
Thermal stability
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cited_by cdi_FETCH-LOGICAL-c368t-5ee994d5f02a6db8a77b52d44d3ae77dc60167d4f2265bcbeef1b4e6509e6bec3
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container_end_page 128446
container_issue Pt 1
container_start_page 128446
container_title International journal of biological macromolecules
container_volume 257
creator Shibly, Mohammad Abul Hasan
Islam, Md. Ikramul
Rahat, Md. Nur Hossain
Billah, Muhammad Maruf
Rahman, Mohammad Mahbubur
Bashar, Muhammad Shahriar
Abdul, Basit
Alorfi, Hajer S.
description The current investigation aims to choose an alternate potential replacement for the nonbiodegradable synthetic fibers used in polymer composites. This goal motivated the thorough characterization of Rosa hybrida bark (RHB) fibers. The research explored fiber characterization such as morphological, mechanical, thermal, and physical properties. The suggested fiber features a percentage of cellulose, hemicellulose molecules, and lignin of 52.99 wt%, 18.49 wt%, and 17.34 wt%, respectively according to chemical composition studies, which improves its mechanical properties. It is suitable for lightweight applications due to its decreased density (1.194 gcm−3). The purpose of the Fourier transform infrared spectroscope was to observe and record how various chemical groups were distributed throughout the surface of the fiber. The presence of 1.41 nm-sized crystalline cellulose and further XRD analysis showed a crystallinity index of 75.48 %. Scanning electron microscope studies revealed that RHB fibers have a rough surface. According to a single fiber tensile test, for gauge length (GL) 40 mm, Young's modulus and tensile strength of RHB fibers were 6.57 GPa and 352.01 MPa, respectively, and for GL 50 mm, 9.02 GPa and 311 MPa, respectively. Furthermore, thermo-gravimetric examination revealed that the isolated fibers were thermally stable up to 290 °C and the kinetic activation energy was found to be 75.32 kJ/mol. The fibers taken from the Rosa hybrida flower plants' bark exhibit qualities similar to those of currently used natural fibers, making them a highly promising replacement for synthetic fibers in polymer matrix composites.
doi_str_mv 10.1016/j.ijbiomac.2023.128446
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subjects Cellulosic fibers
Chemical characteristics
Mechanical properties
Morphological studies
Rosa hybrida bark fibers
Thermal stability
title Extraction and characterization of a novel cellulosic fiber derived from the bark of Rosa hybrida plant
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