Effect of duration of exercise on excess postexercise O2 consumption

ResumoNos últimos anos, especialmente fibras naturais extraídos de plantas lignocelulósico, ganharam atenção devido ao seu desempenho como engenharia de reforço compósito polímero. Por exemplo, as fibras lignocelulósicas extraídos a partir das folhas da planta curauá (Ananas acutifolius) exibir um potencial de reforço devido à sua relativamente alta resistência. As fibras, entre 0 a 30% em volume de, foram misturados com resina de poliéster sob pressão num molde metálico, e curada à temperatura ambiente durante 24 horas. Este trabalho procura avaliar a resistência ao impacto deste tipo de matriz de epóxi fibra de reforço. A resistência ao impacto aumentado substancialmente com a quantidade relativa de fibras de curauá reforço do compósito. Este desempenho foi associada com a resistência imposta pelas fibras e o comportamento de propagação da fissura Palavras-chave: Fibras de curaua; Ensaio de impacto izod; Matriz epoxy. ENSAIO IMPACTO IZOD COMPARATIVO ENTRE COMPÓSITOS EPOXY REFORÇADO COM FIBRAS DE CURAUÁ E FIBRA DE VIDRO AbstractIn recent years natural fibers, especially lignocellulosic extracted from plants, have gained attention owing to their engineering performance as polymer composite reinforcement. For instance, the lignocellulosic fibers extracted from the leaves of the curaua plant (Ananas erectifolius) display a reinforcement potential owing to their relatively high strength. The fibers, between 0 to 30% in volume, were mixed with polyester resin under pressure in a metallic mold, and cured at room temperature for 24 hours. This work attempts to evaluate the impact resistance of this type of fiber reinforcing epoxy matrix. The impact resistance increased substantially with the relative amount of curaua fiber reinforcing the composite. This performance was associated with the resistance imposed by the fibers and the crack propagation behavior.

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Comparative Mechanical Analysis Between Epoxy Composite Reinforced With Curaua and Epoxy Composite Reinforced With Fiberglass

Maciel¹,

Ribeiro²,

Ferreira³

et al. 2017

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ResumoAtualmente uma das maiores preocupações da humanidade está relacionada as questões ambientais, o que tem motivado a pesquisa e o desenvolvimento de materiais provenientes de recursos renováveis e ambientalmente amigáveis. A despeito disso, este trabalho objetiva comparar a resistência de compósitos desenvolvidos com fibras naturais e, portanto, ambientalmente amigável e de compósitos desenvolvidos com fibras de vidro, que por sua vez apresentam impactos ambientais desde a fabricação até o descarte. Foram fabricados 13 corpos de provas para amostras contendo 0% de fibra, 30% de fibra de curauá e 30% de fibra de vidro na matriz epoxídica e ensaiado na máquina de tração. Os resultados obtidos apresentam valores bastante superiores para as amostras contendo fibras de vidro, contudo, ao relacionar a tensão do compósito com a respectiva densidade da fibra, foi possível constatar que os compósitos com fibras naturais chegam a apresentar resultados superiores aos compósitos fabricados com fibras de vidro. É possível concluir, portanto, que do ponto de vista da propriedade mecânica em questão é possível substituir as fibras de vidro por fibras de curauá. Palavras-chave: Compósito; Fibras naturais; Fibra de vidro; Propriedades mecânicas. COMPARATIVE MECHANICAL ANALYSIS BETWEEN EPOXY COMPOSITE REINFORCED WITH CURAUA AND EPOXY COMPOSITE REINFORCED WITH FIBERGLASS AbstractCurrently, one of the major concerns of humanity is related to environmental issues, which has motivated researches and development of materials from renewable and environmentally friendly resources. Nevertheless, this study aims to compare the resistance of composites developed with natural fibers, therefore environmentally friendly and composites developed with glass fibers, which in turn have environmental impacts from manufacturing to disposal.Thirteen specimens were fabricated to test, what containing 0% fiber, 30% curaua fiber and 30% fiberglass in epoxy matrix and tested in tensile machine. The results show higher values for the samples containing glass fibers, however, to relate the composite tension with its fiber density, it was found that the composites with natural fibers even showed better results than those produced composites with fibers glass. It can be concluded that, from the point of view of mechanical property in question,fiberglass can be replaced by curaua fiber.

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Comparative Analysis of Curaua Fiber Density Using the Geometric Characterization and Pycnometry Technique

Maciel

Ribeiro

Ferreira

et al. 2017

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Natália de Oliveira Roque Maciel

Comparative tensile strength analysis between epoxy composites reinforced with curaua fiber and glass fiber

Comparative Izod Impact Tests of Epoxy Composite Reinforced With Curaua Fibers and Fiberglass

Comparative Mechanical Analysis Between Epoxy Composite Reinforced With Curaua and Epoxy Composite Reinforced With Fiberglass

Comparative Analysis of Curaua Fiber Density Using the Geometric Characterization and Pycnometry Technique

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