Composite Interfaces, Vol.13, No.4-6, 391-401, 2006
Effect of curing temperature, fibre loading and bonding agent on the equilibrium swelling of isora-natural rubber composites
Isora fibre-reinforced natural rubber (NR) composites were cured at 80, 100, 120 and 150 degrees C using a low temperature curing accelerator system. Composites were also prepared using a conventional accelerator system and cured at 150 degrees C. The swelling behavior of these composites at varying fibre loadings was studied in toluene and hexane. Results show that the uptake of solvent and volume fraction of rubber due to swelling was lower for the low temperature cured vulcanizates which is an indication of the better fibre/rubber adhesion. The uptake of aromatic solvent was higher than that of aliphatic solvent, for all the composites. As the fibre content increased, the solvent uptake decreased, due to the superior solvent resistance of the fibre and good fibre-rubber interactions. The bonding agent improved the swelling resistance of the composites due to the strong interfacial adhesion. Due to the improved adhesion between the fibre and rubber, the ratio of the change in volume fraction of rubber due to swelling to the volume fraction of rubber in the dry sample (V-tau) was found to decrease in the presence of bonding agent. At a fixed fibre loading, the alkali treated fibre composite showed a lower percentage swelling than untreated one for both systems showing superior rubber-fibre interactions.
Keywords:composites;equilibrium swelling;interfacial adhesion;isora fibre;bonding agent;reinforcement