G. Jayamol et al., ELECTRICAL-PROPERTIES OF PINEAPPLE FIBER-REINFORCED POLYETHYLENE COMPOSITES, Journal of polymer engineering, 17(5), 1997, pp. 383-404
Pineapple-fibre-reinforced, low-density polyethylene (LDPE) composites
were prepared by a solution mixing-technique. The dielectric constant
, volume resistivity, and dielectric loss factor of the composites wer
e evaluated as a function of frequency, fibre content, and fibre lengt
h. The dielectric constant values were higher in the fibre-filled syst
em than in pure LDPE. Dielectric constant values were found to increas
e with increased fibre loading because of the increase in polar groups
after the addition of hydrophilic lignocellulosic fibres. Fibre treat
ments, such as isocyanate, silane, and peroxide treatments, were done
to improve the adhesion between the fibre and LDPE matrix. We studied
the influence of the chemical treatments on the electrical properties
of the composites. The dielectric constant values were higher in the t
reated fibre composites than in the unmodified ones. The effect of fib
re loading on the conductivity of the system was evaluated. A percolat
ion threshold was obtained at 15% fibre loading. The respective estima
ted values of the filling factor and the effective coordination number
were 0.061 and 8.1. The volume resistivity was found to be greater fo
r chemically treated fibre composites. The electrical conductivity was
decreased by chemical treatment of the fibres. A dielectric relaxatio
n was observed at a frequency of 1 MHz.