ABSTRACT:In this work a comparative study on the impact and tensile properties of polyester/sisal fiber reinforced composites was undertaken. The polyester matrix was used bare and modified with: (1) a silane coupling agent; (2) a flame retardant system; and (3) a blend of the silane agent and the flame retardant system. The experimental results show that the flame retardant acts as a particulate reinforcement to the polyester matrix and the silane coupling agent acts as a plasticizer. The simultaneous addition of these two compounds to the polyester resin tended to decrease the performance of the composites. The results obtained show that strength or toughness could be tailored, and although none of the composites manufactured with the modified polyester matrices showed a significant improvement on the fiber-matrix interface strength, a better compromise between impact and tensile properties was obtained with the silane modified matrix. The critical fiber volume fraction was also evaluated and shown to be less than 10% for the sisal-polyester composite investigated here.
The effect of accelerated aging by immersion in boiling water on the tensile behavior of a hybrid ramie-cotton fabric polyester composite was evaluated. Under these conditions, fast water absorption by the lignocellulosic fibers took place, causing a sharp reduction in the tensile strength of the composite during the first 5 h ORDER REPRINTS of immersion. A decrease in Young's modulus and an increase in the deformation at break were observed at longer immersion times. It was shown that resin embrittlement occurred under the aging conditions used in this work, which was attributed to the leaching out of low molecular weight substances. Therefore, the plasticizing effect observed with the composites was attributed to the presence of the lignocellulosic fibers. The water absorption kinetics were satisfactorily modeled using the Fickian model.
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