Mainul Islam scite author profile

The flexural behaviour of a new generation composite sandwich beams made up of glass fibre reinforced polymer skins and modified phenolic core material was investigated. The composite sandwich beams were subjected to 4-point static bending test to determine their strength and failure mechanisms in the flatwise and the edgewise positions. The results of the experimental investigation showed that the composite sandwich beams tested in the edgewise position failed at a higher load with less deflection compared to specimens tested in the flatwise position. Under flexural loading, the composite sandwich beams in the edgewise position failed due to progressive failure of the skin while failure in the flatwise position is in a brittle manner due to either shear failure of the core or compressive failure of the skin followed by debonding between the skin and the core. The results of the analytical predictions and numerical simulations are in good agreement with the experimental results.

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Flax fiber and its composites: An overview of water and moisture absorption impact on their performance

Moudood

Rahman

Öchsner

et al. 2018

Journal of Reinforced Plastics and Composites

151

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Contemporary researchers have specified that natural flax fiber is comparable with synthetic fibers due to its unique physical and mechanical characteristics which have been recognized for decades. Flax fiber reinforced composites have the potential for wide usage in sport and maritime industries, and as automotive accessories. In addition, this composite is in the development stages for future applications in the aeronautical industry. However, designing the flax composite parts is a challenging task due to the great variability in fiber properties. This is caused by many factors, including the plant origin and growth conditions, plant age, location in the stem, fibers extraction method, and the fact that there is often a non-uniform cross-section of the fibers. Furthermore, the water and moisture absorption tendency of the flax fibers and their composites and the consequent detrimental effects on their mechanical performance are also major drawbacks. Fibers may soften and swell with absorbed water molecules, which could affect the performance of this bio-composite. Flax fibers' moisture absorption propensity may lead to a deterioration of the fiber-matrix interface, weakening the interfacial strength and ultimately degrading the quality of the composite. This review represents a brief summary of the main findings of research into flax fiber reinforced composites, focusing on the challenges of its water and moisture absorption behavior on their performance.

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Fracture behaviour of bamboo fiber reinforced epoxy composites

Khan

Yousif

Islam

2017

Composites Part B: Engineering

170

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Effectiveness of using fibre-reinforced polymer composites for underwater steel pipeline repairs

Shamsuddoha

Islam

Aravinthan

et al. 2013

Composite Structures

187

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Light activated shape memory polymers and composites: A review

Herath

Epaarachchi

Islam

et al. 2020

European Polymer Journal

122

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Mainul Islam

Flexural behaviour of structural fibre composite sandwich beams in flatwise and edgewise positions

Flax fiber and its composites: An overview of water and moisture absorption impact on their performance

Fracture behaviour of bamboo fiber reinforced epoxy composites

Effectiveness of using fibre-reinforced polymer composites for underwater steel pipeline repairs

Light activated shape memory polymers and composites: A review

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