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Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target
Seeking to improve personal armor equipment by providing mobility and resistance to penetration, this research aimed to explore the potential of sustainable materials in order to assess their ability in ballistic applications. Titica vine fibers (TVFs) extracted from aerial roots of Heteropsis flexu...
| Autores principales: | , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
MDPI
2023
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10490357/ https://www.ncbi.nlm.nih.gov/pubmed/37688176 http://dx.doi.org/10.3390/polym15173550 |
| _version_ | 1785103822153056256 |
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| author | da Cunha, Juliana dos Santos Carneiro Nascimento, Lucio Fabio Cassiano Costa, Ulisses Oliveira Bezerra, Wendell Bruno Almeida Oliveira, Michelle Souza Marques, Maria de Fátima Vieira Soares, Ana Paula Senra Monteiro, Sergio Neves |
| author_facet | da Cunha, Juliana dos Santos Carneiro Nascimento, Lucio Fabio Cassiano Costa, Ulisses Oliveira Bezerra, Wendell Bruno Almeida Oliveira, Michelle Souza Marques, Maria de Fátima Vieira Soares, Ana Paula Senra Monteiro, Sergio Neves |
| author_sort | da Cunha, Juliana dos Santos Carneiro |
| collection | PubMed |
| description | Seeking to improve personal armor equipment by providing mobility and resistance to penetration, this research aimed to explore the potential of sustainable materials in order to assess their ability in ballistic applications. Titica vine fibers (TVFs) extracted from aerial roots of Heteropsis flexuosa from the Amazon region were incorporated at 10, 20, 30, and 40 vol% into an epoxy matrix for applications in ballistic multilayered armor systems (MASs) and stand-alone tests for personal protection against high-velocity 7.62 mm ammunition. The back-face signature (BFS) depth measured for composites with 20 and 40 vol% TVFs used as an intermediate layer in MASs was 25.6 and 32.5 mm, respectively, and below the maximum limit of 44 mm set by the international standard. Fracture mechanisms found by scanning electron microscopy (SEM) attested the relevance of increasing the fiber content for applications in MASs. The results of stand-alone tests showed that the control (0 vol%) and samples with 20 vol% TVFs absorbed the highest impact energy (E(abs)) (212–176 J), and consequently displayed limit velocity (V(L)) values (213–194 m/s), when compared with 40 vol% fiber composites. However, the macroscopic evaluation found that, referring to the control samples, the plain epoxy shattered completely. In addition, for 10 and 20 vol% TVFs, the composites were fragmented or exhibited delamination fractures, which compromised their physical integrity. On the other hand, composites with 30 and 40 vol% TVFs, whose E(abs) and V(L) varied between 166–130 J and 189–167 m/s, respectively, showed the best physical stability. The SEM images indicated that for composites with 10 and 20 vol% TVFs, the fracture mode was predominantly brittle due to the greater participation of the epoxy resin and the discrete action of the fibers, while for composites with 30 and 40 vol% TVFs, there was activation of more complex mechanisms such as pullout, shearing, and fiber rupture. These results indicate that the TVF composite has great potential for use in bulletproof vests. |
| format | Online Article Text |
| id | pubmed-10490357 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | MDPI |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-104903572023-09-09 Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target da Cunha, Juliana dos Santos Carneiro Nascimento, Lucio Fabio Cassiano Costa, Ulisses Oliveira Bezerra, Wendell Bruno Almeida Oliveira, Michelle Souza Marques, Maria de Fátima Vieira Soares, Ana Paula Senra Monteiro, Sergio Neves Polymers (Basel) Article Seeking to improve personal armor equipment by providing mobility and resistance to penetration, this research aimed to explore the potential of sustainable materials in order to assess their ability in ballistic applications. Titica vine fibers (TVFs) extracted from aerial roots of Heteropsis flexuosa from the Amazon region were incorporated at 10, 20, 30, and 40 vol% into an epoxy matrix for applications in ballistic multilayered armor systems (MASs) and stand-alone tests for personal protection against high-velocity 7.62 mm ammunition. The back-face signature (BFS) depth measured for composites with 20 and 40 vol% TVFs used as an intermediate layer in MASs was 25.6 and 32.5 mm, respectively, and below the maximum limit of 44 mm set by the international standard. Fracture mechanisms found by scanning electron microscopy (SEM) attested the relevance of increasing the fiber content for applications in MASs. The results of stand-alone tests showed that the control (0 vol%) and samples with 20 vol% TVFs absorbed the highest impact energy (E(abs)) (212–176 J), and consequently displayed limit velocity (V(L)) values (213–194 m/s), when compared with 40 vol% fiber composites. However, the macroscopic evaluation found that, referring to the control samples, the plain epoxy shattered completely. In addition, for 10 and 20 vol% TVFs, the composites were fragmented or exhibited delamination fractures, which compromised their physical integrity. On the other hand, composites with 30 and 40 vol% TVFs, whose E(abs) and V(L) varied between 166–130 J and 189–167 m/s, respectively, showed the best physical stability. The SEM images indicated that for composites with 10 and 20 vol% TVFs, the fracture mode was predominantly brittle due to the greater participation of the epoxy resin and the discrete action of the fibers, while for composites with 30 and 40 vol% TVFs, there was activation of more complex mechanisms such as pullout, shearing, and fiber rupture. These results indicate that the TVF composite has great potential for use in bulletproof vests. MDPI 2023-08-26 /pmc/articles/PMC10490357/ /pubmed/37688176 http://dx.doi.org/10.3390/polym15173550 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). |
| spellingShingle | Article da Cunha, Juliana dos Santos Carneiro Nascimento, Lucio Fabio Cassiano Costa, Ulisses Oliveira Bezerra, Wendell Bruno Almeida Oliveira, Michelle Souza Marques, Maria de Fátima Vieira Soares, Ana Paula Senra Monteiro, Sergio Neves Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title | Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title_full | Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title_fullStr | Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title_full_unstemmed | Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title_short | Ballistic Behavior of Epoxy Composites Reinforced with Amazon Titica Vine Fibers (Heteropsis flexuosa) in Multilayered Armor System and as Stand-Alone Target |
| title_sort | ballistic behavior of epoxy composites reinforced with amazon titica vine fibers (heteropsis flexuosa) in multilayered armor system and as stand-alone target |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10490357/ https://www.ncbi.nlm.nih.gov/pubmed/37688176 http://dx.doi.org/10.3390/polym15173550 |
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