Authors: Khondker, O. A.; Ishiaku, U. S.; Nakai, A.; Hamada, H.

Source: Plastics, Rubber and Composites, Volume 34, Number 10, December 2005 , pp. 450-462(13)

Publisher: Maney Publishing

Abstract:

The present study reports static and impact mechanical properties of jute fibre-based thermosetting composites using woven and flat braided jute fabrics. Tensile, three-point flexural and low-to-medium energy drop-weight impact tests were conducted and mechanical properties were evaluated to study their dependence upon surface modifications of the fibre materials due to bleaching and coating treatments. Full-bleaching (longer and rigorous) treatments improved interfacial bonding and tensile strength properties of the woven jute composites compared to unbleached and half-bleached counterparts. Bleaching treatments did not seem to improve the flexural strength of composites. Unbleached (natural) jute composites have relatively better flexural strength due to reduced microstructural waviness or fibre crimping to facilitate flexural failure. With coated jute yarns, the tensile properties of the resultant flat braided composites slightly degraded, whereas the flexural properties showed clear improvements. The changes in the mechanical properties were broadly related to the accompanying modifications and to the state of microstructural imperfections, namely fibre/matrix interfacial adhesion, severity of resin matrix shrinkage during the curing process, fibre/matrix debonding and distribution of disbonds within the matrix region, and also to the relative fibre filament density along the loading axis, in the cured composite structure. There was a clear indication that natural woven jute composites could be more effective in applications requiring better impact damage resistance, energy absorption capability and improved progressive crushing behaviour.

Keywords: IMPACT BEHAVIOUR; JUTE FIBRE/YARN/FABRIC; SURFACE TREATMENTS; MECHANICAL PROPERTIES

Document Type: Research Article

DOI: http://dx.doi.org/10.1179/174328905X66199

Publication date: 2005-12-01

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