PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)

PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)

This study summarized the research on the production of cellulose bioplastics from bamboo (Barnbusa vulgaris). Cellulose from bamboo were a good renewable material for the substitution of the conventional polymer for the production of plastics. In this research work, bamboo were treated by using Kra...

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Main Author: Ahmad, Nur Ayuni
Format: Undergraduate Final Project Report
Published: 2020
Online Access:http://discol.umk.edu.my/id/eprint/4095/
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Institution: Universiti Malaysia Kelantan
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spelling my.umk.eprints.40952022-05-23T08:22:22Z http://discol.umk.edu.my/id/eprint/4095/ PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris) Ahmad, Nur Ayuni This study summarized the research on the production of cellulose bioplastics from bamboo (Barnbusa vulgaris). Cellulose from bamboo were a good renewable material for the substitution of the conventional polymer for the production of plastics. In this research work, bamboo were treated by using Kraft methods and alkali treatment to obtain the cellulose. PLA acts as matrix while PBAT acts as plasticizer and cellulose acts as filler in the production of bioplastics. The determination for the functional group in this bioplastics was carried out by using FTIR. Meanwhile, the mechanical properties of different percentage of cellulose bioplastics were determined by using tensile strength test. Sample of PLA/PBAT/cellulose bioplastics with the cellulose content 0% and 3% showed the excellent results for tensile strength which the value are 11.052 N/mm2 and 9.591 N/mm2, while the sample of cellulose 9% showed poor result in tensile strength which the value are 0.564 N/mm2 (PLA/cellulose) and 2.038 N/mm2 (PLA/PBAT/cellulose). This indicates that the increased in the cellulose content caused the reduction in the tensile strength due to the excessive fiber density in the bioplastics. On the other hand, the water absorption properties of the bioplastics were determined by using water absorption test. Sample with cellulose 9% absorbed the highest amount of water with 5.991% (PLA/cellulose) and 12.69% (PLA/PBAT/cellulose) of the total water absorption. The percentage of water absorption increased as the cellulose increased. In addition, the biodegradability of the bioplastics was determined by using biodegradation test. Sample with cellulose 9% showed the greater mass loss compared to the other samples. However, samples with 3% of cellulose also showed the ability to decompose rapidly with the total mass loss of 3.28% (PLAJcellulose) and 2.07% (PLA/PBAT/cellulose). This indicates as the cellulose content increased, the decomposition of bioplastics is also increased. As a conclusion, sample with 3% of cellulose content exhibits an excellent properties of bioplastics due to the high tensile strength, good water resistance and fast biodegradation. 2020 Undergraduate Final Project Report NonPeerReviewed Ahmad, Nur Ayuni (2020) PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris). Final Year Project thesis, Universiti Malaysia Kelantan. (Submitted)
institution Universiti Malaysia Kelantan
building Perpustakaan Universiti Malaysia Kelantan
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Kelantan
content_source UMK Institutional Repository
url_provider http://umkeprints.umk.edu.my/
description This study summarized the research on the production of cellulose bioplastics from bamboo (Barnbusa vulgaris). Cellulose from bamboo were a good renewable material for the substitution of the conventional polymer for the production of plastics. In this research work, bamboo were treated by using Kraft methods and alkali treatment to obtain the cellulose. PLA acts as matrix while PBAT acts as plasticizer and cellulose acts as filler in the production of bioplastics. The determination for the functional group in this bioplastics was carried out by using FTIR. Meanwhile, the mechanical properties of different percentage of cellulose bioplastics were determined by using tensile strength test. Sample of PLA/PBAT/cellulose bioplastics with the cellulose content 0% and 3% showed the excellent results for tensile strength which the value are 11.052 N/mm2 and 9.591 N/mm2, while the sample of cellulose 9% showed poor result in tensile strength which the value are 0.564 N/mm2 (PLA/cellulose) and 2.038 N/mm2 (PLA/PBAT/cellulose). This indicates that the increased in the cellulose content caused the reduction in the tensile strength due to the excessive fiber density in the bioplastics. On the other hand, the water absorption properties of the bioplastics were determined by using water absorption test. Sample with cellulose 9% absorbed the highest amount of water with 5.991% (PLA/cellulose) and 12.69% (PLA/PBAT/cellulose) of the total water absorption. The percentage of water absorption increased as the cellulose increased. In addition, the biodegradability of the bioplastics was determined by using biodegradation test. Sample with cellulose 9% showed the greater mass loss compared to the other samples. However, samples with 3% of cellulose also showed the ability to decompose rapidly with the total mass loss of 3.28% (PLAJcellulose) and 2.07% (PLA/PBAT/cellulose). This indicates as the cellulose content increased, the decomposition of bioplastics is also increased. As a conclusion, sample with 3% of cellulose content exhibits an excellent properties of bioplastics due to the high tensile strength, good water resistance and fast biodegradation.
format Undergraduate Final Project Report
author Ahmad, Nur Ayuni
spellingShingle Ahmad, Nur Ayuni
PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
author_facet Ahmad, Nur Ayuni
author_sort Ahmad, Nur Ayuni
title PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
title_short PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
title_full PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
title_fullStr PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
title_full_unstemmed PRODUCTION of cellulose bioplastics derived from bamboo (Bamb Usa Vulgaris)
title_sort production of cellulose bioplastics derived from bamboo (bamb usa vulgaris)
publishDate 2020
url http://discol.umk.edu.my/id/eprint/4095/
_version_ 1763303365807177728

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