Compuestos de Poliéster Reforzados con Fibra de Plátano/Banano (Musa paradisiaca) Modificada Químicamente: Comparación con Fibra de Vidrio y Fique (Furcraea andina)

Rodríguez, L. Joana; Sarache, William; Orrego, Carlos E.

doi:10.4067/s0718-07642014000500005

Cited by 12 publications

(13 citation statements)

References 19 publications

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“…Additionally E-glass fiber composite has longer continuous fibers which allow a better transmission of stresses which is not interrupted due to the size of the fibers as shown Sumaila [22] in short banana fiber epoxy composite. The results obtained are comparable to the study carried out by Rodriguez et al [23], where a fiberglass composite exceeds in mechanical properties a Banana/plantain composite. The dynamic characterization presented a similar response behavior for both materials.…”

Section: Discussionsupporting

confidence: 81%

Comparative study of the mechanical and vibratory properties of a composite reinforced with fique fibers versus a composite with E-glass fibers

Gómez

Ramón

Guzmán

2018

revuin

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Este artículo puede compartirse bajo la licencia CC BY-ND 4.0 y se referencia usando el siguiente formato: S. Gómez, B. Ramón, R. Guzmán, "Comparative study of the mechanical and vibratory properties of a composite reinforced with fique fibers versus a composite w ith E-glass fibers," Rev. UIS Ing., vol. 17, no. 1, pp. 43-50, 2018. Doi: https://doi.org/10.18273/revuin.v17n1-2018004 Vol. 17, no. 1, pp. 43-50, enero-junio 2018 Revista UIS Ingenierías ABSTRACTIn the following research, the mechanical and dynamic vibratory properties between a fique fiber reinforced composite and a composite with E-glass fibers were compared. The materials were fabricated trough a vacuum infusion manufacturing technique using a bioepoxy resin. The mechanical properties were obtained by tensile tests according to the ASTM standards for each configuration. The results demonstrated higher values in stiffness and strength for the composite with E-glass fiber. Experimental modal analysis was used for the dynamic vibrational study, obtaining very similar behaviors for each material. The interface between the materials was studied by scanning electron microscopy, in which a low adhesion between the natural fiber and the resin was evidenced; affecting the mechanical and dynamic properties of the fique composite compared to the E-glass composite.KEYWORDS: Modal Analysis; composite; fique; E-glass; scanning electron microscopy; tensile test. RESUMENEn la presente investigación se compararon las propiedades vibratorias mecánicas y dinámicas entre un compuesto reforzado con fibras y un compuesto con fibras de vidrio -E. Los materiales se fabricaron a través de una técnica de fabricación de infusión al vacío utilizando una resina bioepoxi. Las propiedades mecánicas se obtuvieron por ensayos de tracción según las normas ASTM para cada configuración. Los resultados demostraron valores más altos en rigidez y resistencia para el compuesto con fibra de vidrio -E. Se utilizó el análisis modal experimental para el estudio vibratorio dinámico, obteniendo conductas muy similares para cada material. La interfaz entre los materiales se estudió mediante microscopía electrónica de barrido, en la que se evidenció una baja adhesión entre la fibra natural y la resina; que afecta las propiedades mecánicas y dinámicas del compuesto fique en comparación con el compuesto de vidrio -E.PALABRAS CLAVE: Análisis modal; compuesto; fique; vidrio -E; microscopía electrónica de barrido; ensayo de tracción. 44S. Gómez, B. Ramón, R. Guzmán 4

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Section: Discussionsupporting

confidence: 81%

Comparative study of the mechanical and vibratory properties of a composite reinforced with fique fibers versus a composite with E-glass fibers

Gómez

Ramón

Guzmán

2018

revuin

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“…After several washes with acetone, to ensure the removal of all residues of the reagents. Finally, the treated fibres were dried in an oven at 60°C for 24 hours (Rodríguez et al, 2014).…”

Section: Chemical Pretreatmentmentioning

confidence: 99%

“…In Colombia, there is a wide variety of natural fibres used mainly in handicraft applications which could be used in the industry. Plantain sheet stalk from agro-industrial waste, have been studied due to their promising mechanical properties (Rodríguez et al, 2014). Showed the feasibility of their use as a reinforcement of thermoset synthetic resins such as polyester resin obtaining similar results to the glass fiber although the use of plantain sheet stalk as reinforcement in biodegradable polymers has not been explored.…”

Section: Introductionmentioning

confidence: 99%

Laminated Composites Reinforced With Chemically Modified Sheets-Stalk of Musa Cavendish

Soto¹

2018

Rev.Mex.Ing.Quim.

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“…En la misma figura, se puede apreciar que el compuesto reforzado con 25% en peso de fibra tratada con 200 g/L de NaOH presenta una mayor delaminación comparado con los tratamientos a (100 y 300) g/L de NaOH. Según Rodríguez, et al [25], la disminución de la resistencia al impacto promedio de los compuestos reforzados con fibra tratada puede deberse a una disminución de la elasticidad típica necesaria en las fibras vegetales, pues ellas cumplen su función de carga y de transporte, esta disminución, generaría incremento de rigidez con pérdida de elasticidad y por ende menor capacidad de deformación ante el impacto (Ver Fig. 6).…”

Section: Fig5 Resistencia Al Impacto Vs % Peso De Fibra Mauritia Flunclassified

Polyester composite reinforced with fiber of Mauritia flexuosa treated with alkali: Impact energy, chemical composition and surface topography.

Saavedra¹,

Lázaro²,

Rojas³

et al. 2020

Proceedings of the 18th LACCEI International Multi-Conference for Engineering, Education, and Technology: Engineering, Integrat

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This work evaluated the influence of the concentration of NaOH (100, 200 and 300 g/L NaOH) in the mercerization process at 25 °C for 1 h, and of the percentage (15, 20 and 25% m/m) of Mauritia flexuosa fibers on impact resistance in a polyester matrix composite. The polyester matrix composite was obtained by the compression molding process, at a constant pressure of 24 MPa. The obtained plates had a dimension of 130 mm long x 80 mm wide x 3.4 mm thick. Specimens for the impact assay were extracted from the obtained plates under the EN ISO 179-1 standard. Likewise, the fiber-reinforced composites without treatment were also evaluated, all the fibers were characterized before and after the NaOH treatment by means of the chemical characterization of the fiber, absorption percentage, scanning electron microscopy (SEM) and Fourier transform infrared spectroscopy (FT-IR). The results showed that with a higher concentration of NaOH, a decrease in extractives, lignin and hemicellulose was obtained, while the cellulose content increased. Additionally, it was shown that the higher the NaOH concentration, the hydrophilic character of the fiber decreases. On the other hand, by means of FT-IR, it was identified that the functional groups related to the fiber composition vary before and after mercerization. While the scanning electron microscopy (SEM) showed morphological changes of the fiber where impurities, waxes and fats were observed for the untreated fiber and a rougher surface and free of impurities for the treated fibers. The highest impact resistance value was obtained by 25% fiber reinforced composites without treatment with an average value of 39.62 kJ/m2, a value that represents an increase of 298.34% with respect to the impact resistance of the polyester matrix. without reinforcement. The results concluded that the weight percentage of fiber increases impact resistance while chemical treatment increases fiber-matrix adhesion and influences the failure mechanism of polyester matrix compounds, however, decreases impact resistance. Thus, the compounds reinforced with 25% fiber and treated with 100, 200 and 300 g/L of NaOH reported average values of impact resistance of 23.02 kJ/m2, 28.01 kJ/m2 and 20.48 kJ/m2 respectively.

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Compuestos de Poliéster Reforzados con Fibra de Plátano/Banano (Musa paradisiaca) Modificada Químicamente: Comparación con Fibra de Vidrio y Fique (Furcraea andina)

Cited by 12 publications

References 19 publications

Comparative study of the mechanical and vibratory properties of a composite reinforced with fique fibers versus a composite with E-glass fibers

Comparative study of the mechanical and vibratory properties of a composite reinforced with fique fibers versus a composite with E-glass fibers

Laminated Composites Reinforced With Chemically Modified Sheets-Stalk of Musa Cavendish

Polyester composite reinforced with fiber of Mauritia flexuosa treated with alkali: Impact energy, chemical composition and surface topography.

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