Characterization of prickly pear short fiber and red onion peel biocarbon nanosheets toughened epoxy composites
In this research, the role of prickly pear short fiber and red onion peel wrinkled biocarbon nanosheets toughened epoxy resin composite was investigated. The main aim of this research was to find the effectiveness of adding biocarbon along with prickly pear fiber in the load‐bearing, thermal and ele...
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| Published in | Polymer composites Vol. 43; no. 8; pp. 4899 - 4908 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken, USA
John Wiley & Sons, Inc
01.08.2022
Blackwell Publishing Ltd |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0272-8397 1548-0569 |
| DOI | 10.1002/pc.26735 |
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| Abstract | In this research, the role of prickly pear short fiber and red onion peel wrinkled biocarbon nanosheets toughened epoxy resin composite was investigated. The main aim of this research was to find the effectiveness of adding biocarbon along with prickly pear fiber in the load‐bearing, thermal and electrical conductivity behavior of the epoxy resin composite. The biocarbon nanosheets were prepared for this present investigation from red onion peel waste using the pyrolysis process. The composites were characterized by American society of testing and materials (ASTM) standards and compared with previous results. The highest tensile strength and flexural strength were observed for 3 vol.% of biocarbon nanosheets up to 60% and 40% respectively than pure epoxy. Izod impact toughness and hardness values also increased with the inclusion of reinforcements by 5 vol.% around 93% and 90% correspondingly. Similarly, relative permittivity and dielectric loss enhanced about to 6.4 and 0.74 for 5 vol.% of biocarbon nanosheets. The thermal conductivity also improved with the addition of biocarbon nanosheets and maximum values up to 0.42 W/mK. This enhanced dielectric, mechanical, and thermally active composites might be employed as a microwave shielding material in electronic devices, automotive, and industrial applications for communications equipment that require shielding material with good mechanical properties.
Prickly pear fiber extraction |
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| AbstractList | In this research, the role of prickly pear short fiber and red onion peel wrinkled biocarbon nanosheets toughened epoxy resin composite was investigated. The main aim of this research was to find the effectiveness of adding biocarbon along with prickly pear fiber in the load‐bearing, thermal and electrical conductivity behavior of the epoxy resin composite. The biocarbon nanosheets were prepared for this present investigation from red onion peel waste using the pyrolysis process. The composites were characterized by American society of testing and materials (ASTM) standards and compared with previous results. The highest tensile strength and flexural strength were observed for 3 vol.% of biocarbon nanosheets up to 60% and 40% respectively than pure epoxy. Izod impact toughness and hardness values also increased with the inclusion of reinforcements by 5 vol.% around 93% and 90% correspondingly. Similarly, relative permittivity and dielectric loss enhanced about to 6.4 and 0.74 for 5 vol.% of biocarbon nanosheets. The thermal conductivity also improved with the addition of biocarbon nanosheets and maximum values up to 0.42 W/mK. This enhanced dielectric, mechanical, and thermally active composites might be employed as a microwave shielding material in electronic devices, automotive, and industrial applications for communications equipment that require shielding material with good mechanical properties.
Prickly pear fiber extraction In this research, the role of prickly pear short fiber and red onion peel wrinkled biocarbon nanosheets toughened epoxy resin composite was investigated. The main aim of this research was to find the effectiveness of adding biocarbon along with prickly pear fiber in the load‐bearing, thermal and electrical conductivity behavior of the epoxy resin composite. The biocarbon nanosheets were prepared for this present investigation from red onion peel waste using the pyrolysis process. The composites were characterized by American society of testing and materials (ASTM) standards and compared with previous results. The highest tensile strength and flexural strength were observed for 3 vol.% of biocarbon nanosheets up to 60% and 40% respectively than pure epoxy. Izod impact toughness and hardness values also increased with the inclusion of reinforcements by 5 vol.% around 93% and 90% correspondingly. Similarly, relative permittivity and dielectric loss enhanced about to 6.4 and 0.74 for 5 vol.% of biocarbon nanosheets. The thermal conductivity also improved with the addition of biocarbon nanosheets and maximum values up to 0.42 W/mK. This enhanced dielectric, mechanical, and thermally active composites might be employed as a microwave shielding material in electronic devices, automotive, and industrial applications for communications equipment that require shielding material with good mechanical properties. |
| Author | Ramaswamy, R. Natrayan, L. Gurupranes, S. V. Kaliappan, S. Patil, Pravin P. |
| Author_xml | – sequence: 1 givenname: R. orcidid: 0000-0003-0162-8185 surname: Ramaswamy fullname: Ramaswamy, R. email: rrsamy2000@rediffmail.com organization: Nehru institute of Engineering and Technology – sequence: 2 givenname: S. V. surname: Gurupranes fullname: Gurupranes, S. V. organization: Dr. Mahalingam College of Engineering and Technology – sequence: 3 givenname: S. orcidid: 0000-0002-1280-2495 surname: Kaliappan fullname: Kaliappan, S. organization: Velammal Institute of Technology – sequence: 4 givenname: L. surname: Natrayan fullname: Natrayan, L. organization: Saveetha School of Engineering, SIMATS – sequence: 5 givenname: Pravin P. orcidid: 0000-0002-0956-799X surname: Patil fullname: Patil, Pravin P. organization: Graphic Era Deemed to be University |
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| SubjectTerms | biocarbon Communications equipment Composite materials Dielectric loss electrical properties Electrical resistivity Electronic devices Epoxy resins Flexural strength Impact strength Industrial applications Mechanical properties Nanosheets Onions Permittivity PMC Pyrolysis Shielding Short fibers Tensile strength Thermal conductivity thermal properties |
| Title | Characterization of prickly pear short fiber and red onion peel biocarbon nanosheets toughened epoxy composites |
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