Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites

In this study, sugar palm crystalline nanocellulose (SPCNC)-reinforced thermoplastic sugar palm starch (TPS) was blended with poly(lactic acid) (PLA) in order to prioritize the biodegradation feature while offsetting individual polymer limitation. Prior to melt blending process, SPCNC was dispersed...

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Main Authors: Asmawi, Nazrin, Salit, Mohd Sapuan, Mohamed Yusoff, Mohd Zuhri, Mohamed Amin Tawakkal, Intan Syafinaz, Rushdan, Ahmad Ilyas
Format: Article
Published: Walter de Gruyter GmbH 2022
Online Access:http://psasir.upm.edu.my/id/eprint/101539/
https://www.degruyter.com/document/doi/10.1515/ntrev-2022-0007/html?lang=en
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1015392023-08-11T08:21:00Z http://psasir.upm.edu.my/id/eprint/101539/ Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites Asmawi, Nazrin Salit, Mohd Sapuan Mohamed Yusoff, Mohd Zuhri Mohamed Amin Tawakkal, Intan Syafinaz Rushdan, Ahmad Ilyas In this study, sugar palm crystalline nanocellulose (SPCNC)-reinforced thermoplastic sugar palm starch (TPS) was blended with poly(lactic acid) (PLA) in order to prioritize the biodegradation feature while offsetting individual polymer limitation. Prior to melt blending process, SPCNC was dispersed through sonication in advance of starch gelatinization which was later casted into petri dishes. PLA and TPS were melt blended into five different ratios using Brabender mixer followed by compression molding. Soil degradation (4 months) and water uptake (4 weeks) tests were conducted to evaluate the physical stability of PLA/TPS blend bionanocomposites. Based on Fickian law, the diffusion curve and coefficient of diffusion for seawater, river water, and sewer water were calculated. The flammability and limiting oxygen index (LOI) tests were conducted in accordance with ASTM D635 and ASTM D2863, respectively. For PLA60TPS40 (40% TPS), significant reduction (46–69%) was recorded in maximum water uptake in all mediums, while soil degradation rate experienced insignificant increment (7.92%) for PLA70TPS30 (30% TPS) owing to the reinforcement of SPCNC through the well-dispersed TPS within PLA. Meanwhile, the flammability rates and LOI values for PLA40TPS60 and PLA60TPS40 indicated flammable material properties. Walter de Gruyter GmbH 2022 Article PeerReviewed Asmawi, Nazrin and Salit, Mohd Sapuan and Mohamed Yusoff, Mohd Zuhri and Mohamed Amin Tawakkal, Intan Syafinaz and Rushdan, Ahmad Ilyas (2022) Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites. Nanotechnology Reviews, 11 (1). 86 - 95. ISSN 2191-9089; ESSN: 2191-9097 https://www.degruyter.com/document/doi/10.1515/ntrev-2022-0007/html?lang=en 10.1515/ntrev-2022-0007
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/
description In this study, sugar palm crystalline nanocellulose (SPCNC)-reinforced thermoplastic sugar palm starch (TPS) was blended with poly(lactic acid) (PLA) in order to prioritize the biodegradation feature while offsetting individual polymer limitation. Prior to melt blending process, SPCNC was dispersed through sonication in advance of starch gelatinization which was later casted into petri dishes. PLA and TPS were melt blended into five different ratios using Brabender mixer followed by compression molding. Soil degradation (4 months) and water uptake (4 weeks) tests were conducted to evaluate the physical stability of PLA/TPS blend bionanocomposites. Based on Fickian law, the diffusion curve and coefficient of diffusion for seawater, river water, and sewer water were calculated. The flammability and limiting oxygen index (LOI) tests were conducted in accordance with ASTM D635 and ASTM D2863, respectively. For PLA60TPS40 (40% TPS), significant reduction (46–69%) was recorded in maximum water uptake in all mediums, while soil degradation rate experienced insignificant increment (7.92%) for PLA70TPS30 (30% TPS) owing to the reinforcement of SPCNC through the well-dispersed TPS within PLA. Meanwhile, the flammability rates and LOI values for PLA40TPS60 and PLA60TPS40 indicated flammable material properties.
format Article
author Asmawi, Nazrin
Salit, Mohd Sapuan
Mohamed Yusoff, Mohd Zuhri
Mohamed Amin Tawakkal, Intan Syafinaz
Rushdan, Ahmad Ilyas
spellingShingle Asmawi, Nazrin
Salit, Mohd Sapuan
Mohamed Yusoff, Mohd Zuhri
Mohamed Amin Tawakkal, Intan Syafinaz
Rushdan, Ahmad Ilyas
Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
author_facet Asmawi, Nazrin
Salit, Mohd Sapuan
Mohamed Yusoff, Mohd Zuhri
Mohamed Amin Tawakkal, Intan Syafinaz
Rushdan, Ahmad Ilyas
author_sort Asmawi, Nazrin
title Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
title_short Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
title_full Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
title_fullStr Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
title_full_unstemmed Flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
title_sort flammability and physical stability of sugar palm crystalline nanocellulose reinforced thermoplastic sugar palm starch/poly(lactic acid) blend bionanocomposites
publisher Walter de Gruyter GmbH
publishDate 2022
url http://psasir.upm.edu.my/id/eprint/101539/
https://www.degruyter.com/document/doi/10.1515/ntrev-2022-0007/html?lang=en
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