Optimisation of the surface treatment of jute fibres for natural fibre reinforced polymer composites using Weibull analysis

The natural bast fibres such as jute, flax, kenaf, hemp, ramie are chemically modified for improving the interfacial adhesion with the hydrophobic matrices. Alkali treatment is amongst the widely used chemical treatment for the surface modification of these natural fibres. In this study, jute fibres are treated with 0.5, 4 and 25 wt.% sodium hydroxide (NaOH) solution at room temperature for 24 hours, 30 min and 20 min respectively. A comparison has been made between the physical and mechanical properties of these untreated and alkali treated jute fibres. Subsequently, a comparison between the cross-sectional areas of jute fibres before and after alkali treatment by using SEM analysis and circular fibre assumption is also made. The aim of the work is to optimise the alkali treatment processes of jute fibres with different concentrations of NaOH at room temperature. Two-parameter Weibull distribution is also applied to analyse the tensile properties of untreated and different alkali treated jute fibres. It has been observed that probabilistic tensile strength is an effective technique rather than presenting the average tensile strength. The study clearly demonstrates the jute fibre treated with 0.5 wt.% NaOH is more feasible and effective way to improve the mechanical properties of natural fibre reinforced composites.