Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique
The aim of this study is to develop a completely sustainable, biodegradable, eco-friendly and green composite material for packaging of food and medical products by an additive manufacturing technique such as 3D printing. This report presents the mechanical, crystalline, chemical bonding and thermal...
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2022
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my.utm.1036792023-11-23T08:16:10Z http://eprints.utm.my/103679/ Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique Mansingh, Bright Brailson Binoj, Joseph Selvi Tan, Ze Quan Wong, Eugene Wai Leong Amornsakchai, Taweechai Abu Hassan, Shukur Goh, Kheng Lim Q Science (General) TJ Mechanical engineering and machinery The aim of this study is to develop a completely sustainable, biodegradable, eco-friendly and green composite material for packaging of food and medical products by an additive manufacturing technique such as 3D printing. This report presents the mechanical, crystalline, chemical bonding and thermal characteristics of a novel pineapple leaf fiber (PALF) reinforcing polylactic acid (PLA) green composite manufactured by 3D printing technique. Both powdered raw and alkali-treated PALFs were respectively mixed with PLA and extruded as filaments for 3D printing into composite test specimens. The characterization study reveals that the 3D printed composite with 3 wt% (alkali-treated) PALF reinforcement exhibited maximum tensile and flexural characteristics. The density of the 3D printed composite specimens increased with increase in wt% of PALF. On the other hand, the 3D printed composite specimens blended with raw PALF showed enhanced elongation at break compared to alkali-treated PALF reinforced composite specimens. The microstructural images of the 3D printed composite specimens confirms the existence of impurities, voids and fiber degradation phenomenon. The Fourier transform infrared spectra revealed the chemical bonding nature of the 3D printed composite specimens. The X-Ray diffraction was used to calculate the crystalline size and crystallinity index. Thermogravimetric analysis reveals that the 3D printed composite specimen possessed adequate thermal stability for use in packaging applications. John Wiley and Sons Inc 2022-09 Article PeerReviewed Mansingh, Bright Brailson and Binoj, Joseph Selvi and Tan, Ze Quan and Wong, Eugene Wai Leong and Amornsakchai, Taweechai and Abu Hassan, Shukur and Goh, Kheng Lim (2022) Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique. Polymer Composites, 43 (9). pp. 6051-6061. ISSN 0272-8397 http://dx.doi.org/10.1002/pc.26906 DOI:10.1002/pc.26906 |
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Q Science (General) TJ Mechanical engineering and machinery Mansingh, Bright Brailson Binoj, Joseph Selvi Tan, Ze Quan Wong, Eugene Wai Leong Amornsakchai, Taweechai Abu Hassan, Shukur Goh, Kheng Lim Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
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The aim of this study is to develop a completely sustainable, biodegradable, eco-friendly and green composite material for packaging of food and medical products by an additive manufacturing technique such as 3D printing. This report presents the mechanical, crystalline, chemical bonding and thermal characteristics of a novel pineapple leaf fiber (PALF) reinforcing polylactic acid (PLA) green composite manufactured by 3D printing technique. Both powdered raw and alkali-treated PALFs were respectively mixed with PLA and extruded as filaments for 3D printing into composite test specimens. The characterization study reveals that the 3D printed composite with 3 wt% (alkali-treated) PALF reinforcement exhibited maximum tensile and flexural characteristics. The density of the 3D printed composite specimens increased with increase in wt% of PALF. On the other hand, the 3D printed composite specimens blended with raw PALF showed enhanced elongation at break compared to alkali-treated PALF reinforced composite specimens. The microstructural images of the 3D printed composite specimens confirms the existence of impurities, voids and fiber degradation phenomenon. The Fourier transform infrared spectra revealed the chemical bonding nature of the 3D printed composite specimens. The X-Ray diffraction was used to calculate the crystalline size and crystallinity index. Thermogravimetric analysis reveals that the 3D printed composite specimen possessed adequate thermal stability for use in packaging applications. |
| format |
Article |
| author |
Mansingh, Bright Brailson Binoj, Joseph Selvi Tan, Ze Quan Wong, Eugene Wai Leong Amornsakchai, Taweechai Abu Hassan, Shukur Goh, Kheng Lim |
| author_facet |
Mansingh, Bright Brailson Binoj, Joseph Selvi Tan, Ze Quan Wong, Eugene Wai Leong Amornsakchai, Taweechai Abu Hassan, Shukur Goh, Kheng Lim |
| author_sort |
Mansingh, Bright Brailson |
| title |
Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
| title_short |
Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
| title_full |
Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
| title_fullStr |
Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
| title_full_unstemmed |
Comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3D printing technique |
| title_sort |
comprehensive characterization of raw and treated pineapple leaf fiber/polylactic acid green composites manufactured by 3d printing technique |
| publisher |
John Wiley and Sons Inc |
| publishDate |
2022 |
| url |
http://eprints.utm.my/103679/ http://dx.doi.org/10.1002/pc.26906 |
| _version_ |
1783876399802613760 |
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13.211869 |