International Journal of Sustainable Engineering (Nov 2021)

Effects of Intrinsic Mechanical Characteristics of Lignocellulosic Fibres on the Energy Absorption and Impact Rupture Stress of Low Density Polyethylene Biocomposites

  • Faris M. AL-Oqla

DOI
https://doi.org/10.1080/19397038.2021.1966127
Journal volume & issue
Vol. 14, no. 6
pp. 2009 – 2017

Abstract

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Proper assessments of the role of various natural fibres in green composites are very significant to predict their behaviour in different conditions leading to optimise the use of green composites in more functional green products. This work has systematically investigated the effect of various lignocellulosic fibre types, fibre contents, and fibre intrinsic mechanical characteristics on the energy absorption capability and the corresponding rupture stress behaviour of low-density polyethylene-based composites. This was carried out to reveal more reliable behaviour trends during the impact process. The intrinsic mechanical properties of Mediterranean lemon, olive, and fig leaf fibres were considered including the tensile strength, density, modulus of elasticity, elongation to break, and the interfacial shear between the fibre and the matrix. The roles of the individual intrinsic mechanical properties of fibres were illustrated while comparing their effects at both energy absorptions and impact rupture stresses of the composites at various fibre loading. Results have revealed that olive fibres was capable of enhancing the energy absorbed as well as the impact ruptures stress. The elongation to break property was also found among the critical intrinsic mechanical characteristics in enhancing the energy absorption during impact. Non-linear trends were revealed for both the energy absorption and impact rupture stress of the green composites.

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